EQ May'14 Edition by EQ Int'l Solar Media Group

Volume # 4 | Issue # 5 | May-2014 Solar Mega Power Plants; Challenges In Execution Fastening Solar Panels To Trapezoidal Sheet Metal Or The Upper Shell Of Insulated Trapezoidal Sheet Metal Roofs Zigor Solar Inverters Power Rural Schools In Tamil Nadu Renewable Energy Financing In India: Challenges And Solutions Guernsey – Financial Services For Cleantech Projects

I N T E R N AT I O N A L

Panasonic HIT® Solar Cell Achieves World’s Highest Energy Conversion Efficiency Of 25.6%* At Research Level

www.EQMaglive.com

First Multi Developer, Multi Technology 100 MW Solar Park under PPP Scheme.

UNIQUE INVESTMENT OPPORTUNITY in the promising Renewable Energy sector

RAASI GREEN EARTH ENERGY PVT LTD #817, 2nd Floor, 80 Feet Road, Koramangala 8th Block, Bangalore – 560095 Phone: +91-80-25719486 l fax: +91-80-25719476 E-mail: info@raasienergy.com Web: www.raasienergy.com

RAASI SOLAR PARK - 100 MW

Solar Park Highlights · · · ·

Location: Paramakkudi Taluk, Ramanthapuram district, Tamil Nadu Co-ordinates : 9°29'20.20"N, 78°33'11.51"E Total Extent: 600 Acres of Land, Including 100 Acres for support infrastructure. · Park Capacity :100 MW 5.48 kWh / m2 / day as per Meteonorm · PLF of 19%

Advantages

· Well connected by NH87 and SH28 · a. 6 Kmsfrom Paramakudi Railway Station. · b. 70Kms from Madurai Air Port, · c. 80 Kms from Tuticorin Port.

· · · ·

Adjacent to 230/110 kV TANGEDCO Sub-Station Plug & Play Integrated Evacuation Facility Secured boundary wall for entire park complex Co-ordination & assistance in obtaining relevant statutory permission relevant to individual plants.

The new standard in PV module performance measurement Spire’s

Spi-Sun Simulator™ 5600SLP Blue Contact us to learn more. Four-C-Tron

No 3486, 14th Main, HAL 2nd Stage, Indiranagar, Bangalore - 560008 +91-80-2525-2506 fourctron@hotmail.com

CONSULTANCY

www.spirecorp.com

2MW+ UTILITY 21MW+ SCALE 200KW+ & PLANT

OPTIMIZATION

ANDHRA PRADESH www.adsprojects.org www.ads-gka.com +91-783 878 4466 info@adsprojects.org

Bhagyanagar India Limited SRI City Private Limited Heritage Foods Limited Arhyama Solar Power Private Limited Emmvee Energy Pvt Ltd ValueLabs LLP B.G.Channappa The KCP Limited

CHHATTISGARH www.kippzonen.com

Sarthak Energy Private Limited Amvensys Technologies Private Limted

MADHYA PRADESH

Improved Performance in Solar Energy starts with Accurate Measurements Contact BKC WeatherSys to learn more about the beneﬁts of Kipp & Zonen instruments www.weathersysbkc.com

Friends Salt Works & Allied Industries Banco Infrastructure Private Limited Dharampal Premchand Ltd. J.K. Minerals SKP Bearing Industries Eastman International Kandla Agro & Chemicals Pvt. Ltd. Oswal Salt & Chemical Industries Agromet India Seattle Power Solutions Pvt. Ltd. Shriji Polymers(India) Ltd. Hue Green Energy Friends Salt Works & Allied Indistries Narmada Switchgear Pvt. Ltd. KRBL Ltd. Dhar Automotives Pvt. Ltd. Eastman International Windsor Exports Avon Cycles Ltd. Vikram Urethane Pvt. Ltd. Porwal Auto Components Limited Indra Vidhya Power Hindustan Platinum Pvt. Ltd. Gujarat Apollo Industries Limited IPF - Vikram India Ltd. Deepak Industries Limited KRBL Limited Ranjanben P. Chovtia Sanpower Solar LLP Ankit Gems Pvt. Ltd. Sharma Industries Suryashakti Enterprises Flow Devices Systems GTC Power Pvt. Ltd. Shree Balaji Enterprises Neevya Solar LLP Avon Cycles Limited Sai Saburi Urja Pvt. Ltd. Neel Properties Birla Corporation Limited, Unit- Satna Cement Works M and B Switchgears Ltd. M and B Switchgears Limited Bhadresh Trading Corporation Limited Centex Fabrics - Export Unit Active Solar LLP Friends Salt Works & Allied Industries Friends Salt Works & Allied Industries OMEGA RENK BEARINGS PVT. LTD. Atul Sharma HIndustan Platinum Pvt. Ltd. Friends Salt Works & Allied Industries SRS Engineers Gautam Freight Pvt. Ltd. Systematic Enterprises Pvt. Ltd. Eastman International Gupta Sons Bonaterra Green Houses LLP Rsquare Shri Sai Baba Hospitality Pvt. Ltd. Aditya Marine Limited Omega Renk Bearings Pvt. Ltd. Pearl Green Energy Pvt Ltd. Banco Construction Pvt. Ltd Bansal And Company Agarwal Jewellers KRBL Limited Saboo Sodium Chloro Limited Tuhina Enterprises Saboo Industries Deepak Spinners Limited Star Delta Transformers Limited M/s Gupta Sons Omega Renk Bearings Pvt. Ltd M AND B Switchgears Limited

MAHARASHTRA * EPC - Utility Scale Project / Solar Rooftop & Water Pumping Solution * Single Axis Tracking Technology Of Viasol Energy Solutions from USA. * Developer Of 25 MW Solar Park at Village Bhoom, Dist. Osmanabad, State - Maharashtra. E : info@solpowergreen.com / solpowergreen@hotmail.com web : www.solpowergreen.com

Developed India’s Largest Private Solar Park in Maharashtra Developing 60 MW Solar Park in Andhra Pradesh. Developing 350 MW Solar Power Projects across India.

Solutions 201-A,”The Orion Building”, 5 Koregoan Park Road,Pune-411001 Tel: + 91 20 26050080/84, Fax: + 91 20 26050079 Email: info@enrichenergy.com

PUNJAB

from the

Sun !

 TURNKEY  EPC  ROOFTOP  O & M SERVICES w w w. e n r i c h e n e r g y. c o m

Nipro India Corporation Pvt Ltd Ryb Power Electricals Private Limited Gaurav Agro Pipes Modern India Limited Akshay Enterprises Varroc Engineering Pvt Limited Yash Promoters & Builders M/s Morries Energy Ltd Klassic Wheels Pvt. Ltd. Paras PVC Pipes & Fittings Pvt Ltd Navalakha Translines Pooja Renewable Energy Private limited Triveni Sangam Holdings & Trading Co.Pvt. Ltd. Finolex Cables Limited Advik Hi-Tech Pvt. Ltd. Daksha Infrastructure Private limited G I Energies Suma Shilp Limited Gangadhar Narsingdas Agrawal Govindram Shobharam & Co. Gurudnyanankit Energy Pvt Ltd Patodia Forgings & Gears Limited Saidpur Jute Co. Ltd Parekh Medisales Private Limited Saraswati Industries Bothara Agro Equipments Pvt. Ltd Chaphalkar Brothers Pune Agrawal Minerals (Goa) Private Limited Hemant Group Nav Gases and Chemicals Navalakha Translines Medilink Services Accesset Ventures J.M. Industries TS Wind Power Developers Hotel Golden Emerald Patel Wood Syndicate Katare Spinning Mills Ltd Vikram Tea Processor Pvt. Ltd. Dr. D. H. Patel New Patel Saw Mill Giriraj Enterprises Jaibalaji Business Corporation Pvt. Ltd. Jain Irrigation Systems Ltd.,

ODISHA

MBPS Control & Power system limited OCL India Limited

5 3 2.04 6 10 5 4 5.75

1.1 2

6 2.4 1.25 0.63 0.63 3 2 2.5 1.25 0.63 1 2 6 2 5.6 1.25 2 4 1 1.25 1.5 0.63 2.5 1 1.25 5 6.63 0.63 0.63 1.25 0.63 0.5 0.63 0.63 2 0.63 1.25 1 1 1.5 7 5 5 1.25 1.25 2.5 2.5 0.655 1 1.25 5 0.63 1.25 0.63 2 1.25 0.63 0.5 0.63 0.695 1 1 1 0.5 2.5 1 1 0.5 1 0.5 0.5 0.105 2

1.5 1 1 3 1 5 1 2 1 0.6 2 0.7 1.2 5 0.6 2 0.6 2.4 1 0.6 0.6 0.6 0.6 0.6 0.6 1 1.2 4 1.2 1 1 1 2 1 1 1 1 1 1 1 1 6.65 1 8.5 1 2.5

RAJASTHAN

SNCA Energy & Infrastructure Pvt. Ltd. Bikaji Foods International Limited Murarka Suitings Pvt. Ltd Nolaram Dulichand Dal Mills Tect Power Pvt. Ltd Rays Power Experts Pvt. Ltd. Lohia Gramin Vikas Pvt Ltd Tirupati microtech private limited Pritam Hospital Designco Viney Corporation Private Limited Topaz Investments U.P. Ceramics and Potteries Ltd. Autobat Batteries Pvt. Ltd Saraf Export Palace Royal Electricals Saboo Engineers private Limited Oil India Limited Sunstone Engineering Industries Private Limited JK Lakshmi Cement Ltd. Bharat Power Inc Apeiron Renewable Energy Private Limited Oswal Woollen Mills Limited K C India Limited ( Unit Sukhlal Solaire Power) Sunita Minechem Industries(Herbal) Shri Om Agro Products Jainsons(India) Industries Jai Bharat Gum and Chemicals Ltd. Suncity Sheets Pvt. Ltd. Bhansali International Rajasthan Gum Pvt. Ltd. Neelkanth Gum and Chemicals Suncity Strips and Tubes Pvt. Ltd. Jainsons Agrochem Industries Shree Ram Industries Lohia Developers (India) Pvt Ltd Lohia Gramin Vikas Pvt Ltd Alliance Land Developers Pvt Ltd Raj Overseas Kshitij Synergy Corp (P) Ltd Rajasthan Patrika Pvt Ltd Real Step Infrastructure Pvt. Ltd Designco Prakash Powers Sol Energy Jai Mangal Infrapowers Private Limited Bikaji Foods International Ltd Chandram solar power private limited Navkar Woollens Private Limited Shri Giriraj Energy Private Limited Sanjiv Prakashan Manidhari Gums and Chemicals ( Unit MGC Power) CEPCO Industries Pvt. Ltd. Kishan Gopal Rungta Private Limited K C India Limited ( Unit Sukhlal Solaire Power) Rajasthan Patrika Private Limited Raj Overseas Viney Corporation Private Limited Aman Home Appliances Private Limited D J Malpani Chartered Gold Financial Services Pvt. Ltd. Dindayal Commodities Pvt. Ltd. Lahoti Overseas Limited Hasya Enterprises Private Limited BMD PVT LTD Giriraj Enterpries Giriraj Enterprises Giriraj Enterprises Impact Solar Power Private Limited R. H. Prasad & Company Private Limited Kanoria Chemicals & Industries Limited Moss Energy Pvt. Ltd. M/s K.K. Enterprises Sir Kasturchand Daga Solar Power Inc

TAMIL NADU

Yajur Energy Solutions Private Limited Swelect Energy Systems Limited Flow Link Systems Ultra Cosmic Solar Energy Private Limited Bharat Heavy Electricals Ltd, Ranipet Apex Clothing Company India Ltd Apex Clothing Company India Ltd SRG Apparels Pvt Ltd Armstrong Spinning Mills Private Limited Super Auto Forge Private Limited M M Forgings Limited Cheenu Enterprises JVS EXPORT TRK Textile (India) Private Limited Free Look Fashions Gajaananda Jewellery Mart India Private Limited Sathy Silks Private Limited Alpine Knits India (P) Ltd Swelect Energy Systems Limited Space Textiles Private Limited The KTM Jewellery Limited Nachas Wind Energy Private Limited Sathy Silks Private Limited SCM International Impex P Ltd Swelect Energy Systems Limited Swelect Energy Systems Limited Amex Alloys Private Limited

1 1 1 2 0.25 1 1 1 0.25 2.5 1 7 2 0.25 3 0.25 1 5 0.5 6.12 2 1.25 5 2 1 3 1 5 1 1 8 3 1 1 5 2.5 1 2 1 2.5 5 0.25 2 1 0.5 5 0.25 1 1 1 2 1 1 1 3 2 1 1 1 13 0.9 1 2 0.1 5 19 11 3 1.5 0.25 5 0.1 0.5 1

1 10 1.26 1 5 15 5 1 1 1 1.8 2 5 1 1 1 1 1 1.055 1 1 1 1 1 1 1 2

Company Name Azure Urja Pvt. Ltd., New Delhi (Proj-1) Azure Urja Pvt. Ltd., New Delhi (Proj-1) Solairedirect Energy India Private Limited, Pune Welspun Solar PunjabPvt. Ltd., Mumbai (Proj-1) Welspun Solar PunjabPvt. Ltd., Mumbai (Proj-2) Punj Lloyd Infrastructure Limited Moserbaer Clean Energy Limited, New Delhi(Project-1) Asopus Infrastructure Limited (Project-1) Moserbaer Clean Energy Limited, New Delhi(Project-2 Essel Infraprojects Ltd.,Mumbai (Project-1) Asopus Infrastructure Limited (Project-2) Essel Infraprojects Ltd.,Mumbai (Project-2) LancoSolar Energy Private Limited, Gurgaon WAA Solar Pvt.Ltd. Project-1 WAA Solar Pvt.Ltd. Project-2 T R Energy & Agro Private Limited International Switchgears Pvt. Ltd. Aditya Media Sales Ltd.,Mumbai Shan Solar Pvt. Ltd. Supreme Infrastructure India Ltd., Gurgaon Azure Urja Pvt. Ltd., New Delhi SAR Capital Pvt. Ltd. Focal Energy Wind India Pvt. Ltd. Atma Powers Private Limited, Muktsar Allianz Group LLC, Ludhiana Nexgen Solex Pvt. Ltd. I K Energy Pvt. Ltd. Asopus Infrastructure Limited Abundant Ventures LLC, USA Welspun Solar PunjabPvt. Ltd., Mumbai Mokia Green Energy Pvt. Ltd. Earth Solar Pvt. Ltd.

Sun Pharma Medication Pvt. Ltd. Alfa Infraprop Pvt. Ltd. ACME Jaipur Solar Power Pvt. Ltd. Aditya Medisales Ltd Lanco Solar Energy Private Limited Sharda Construction and Corporation Pvt. Ltd. Astonﬁeld Solar II Private Limited Bhoruka Power Corporation Limited Waa Solar Private Limited-Tumkur 1 Azure Power Karnataka Private Limited Hero Future Energies Pvt Ltd Waa Solar Private Limited-Tumkur 2 Raghu Infra Pvt Ltd United Telecoms Ltd ESD Builders and Developers Pvt. Ltd. Welspun Solar Kannada Private Ltd. Heidelberg Solar Pvt Ltd Simplex Infrastructures Limited GKC Projects Limited Energo Engineering Projects Ltd Jain Irrigation Systems Ltd-Udupi Jain Irrigation Systems Ltd-Mangalore Jain Irrigation Systems Ltd-Gulbarga

Net Tariff Quoted (`/kWh) 7.67 7.97 7.99 8.33 8.42 8.49 8.52 8.58 8.63 8.65 8.66 8.70 8.74 7.20 7.47 7.75 7.75 7.85 7.89 8.25 8.28 8.29 8.30 8.41 8.45 8.45 8.48 8.49 8.55 8.56 8.59 8.70

(Selected Projects from 100MW Solar Tender in 2013) Essel Mining and Industries Limited Sidhidata Solar Urja Limited Arjun Green Power Pvt. Ltd. Star Solar Power Pvt. Ltd. SUNGOLD Energy Pvt. Ltd Energo Engineering Projects Pvt. Ltd Roha Dyechem Pvt. Ltd.

20 5 5 5 5 10 25

Amritsar

 Hamirpur



Himachal Pradesh

 Shimla  SAS Nagar  Chandigarh- Chamoli-G  Dehradun   Haridwar



Ludhiana

Punjab Haryana

New Delhi

 Moradabad  Faridabad

 Agra

Jaipur

100MW Solar Tender Bidding Results Name of the company

Rate per kwh (In Rupees)

Himgiri Energy Ventures Pvt. Ltd. Today Homes and Infrastructure Private Limited(two generation source) Today Homes and Infrastructure Private Limited(two generation source) Bhadresh Trading Company Limited KRBL Limited Focal Energy Solar Limited Renew Solar Power Private Limited Alfa Infra Prop Private Limited(two generation source) Emami Cement Limited IL& FS Energy Development Company Limited S P Solar PV Private Limited Inspira Enterprise India Private Limited NVR Vidyut Private Limited Alfa Infra Prop Private Limited(two generation source) Azure Power India Private Limited Waa Solar Private Limited ACME Solar Energy Private Limited ACME Solar Energy Private Limited ACME Solar Energy Private Limited ACME Solar Energy Private Limited Welpsun Renewables Energy Limited Welpsun Renewables Energy Limited Essel Infraprojects Limited Azure Power India Private Limited Welpsun Renewables Energy Limited Essel Infraprojects Limited NVR Vidyut Private Limited Welpsun Renewables Energy Limited Azure Power India Private Limited Essel Infraprojects Limited SEI Arushi Private Limited Essel Infraprojects Limited Solaire Direct Energy India Private Limited(four generation source)

&Rishikesh



Gurgaon  



Uttar P

 Gwalior

6.47 6.489

Quoted capacity (MW) 5 10

6.489

6.90 6.949 6.969 6.97 7.09

10 15 20 50 40

7.09 7.300

10 20

7.32 7.32 7.335 7.34

30 8 10 36

7.37 7.38 7.39 7.43 7.47 7.49 7.6 7.63 7.65 7.66 7.73 7.74 7.74 7.77 7.77 7.83 7.87 7.92 7.95

10 15 26 26 26 22 25 25 20 10 25 20 5 25 10 20 15 20 26

Gujarat

 Kutch



Madhya Pradesh

  Gandhinagar

 Bhopal

 Rajkot

 Vadodara

 Indore

EQ H.Q.



Surat

Prestigious Global Green Award winner

 Bi

INDIA’S LARGEST PRIVATE SOLAR PARK BY

ENRICH ENERGY PVT LTD

Solapur



Maharashtra

Hyderabad

 Secunderabad

Karnataka

KERALA :

 Vijayawada

Andhra Pradesh

10000-Rooftop Solar Power Plants (Off Grid)- Agencies

Capacity Discount Actual tariff (MW) in (Rs/Unit) (Rs./Unit) 10 8.99 5.51 10 8.97 5.53 10 8.47 6.03 10 8.45 6.05 10 8.19 6.31 6 7.57 6.93 10 7.37 7.13 10 7.34 7.16 5 7.30 7.20 10 7.03 7.47 10 7.03 7.47 5 7.03 7.47 3 6.65 7.85 3 6.58 7.92 3 6.52 7.98 10 6.45 8.05 10 6.45 8.05 10 6.17 8.33 10 6.10 8.40 10 5.00 9.50 4 4.50 10.00 3 4.50 10.00 3 4.50 10.00

SOLAR PCU – UPTO 100KVA MPPT CHARGERS – UPTO 300A SOLAR PUMP – UPTO 20HP sales@enertechups.com call us – 9822830610 www.enertechups.com

  Bangalore

Adithya Solar Energy Systems

Lanco Solar Energy Pvt. Ltd.

Ammini Solar Pvt. Ltd.

Radiant Solar Private Ltd,

Chemtrols Solar Pvt. Ltd

Autonic Energy Systems Pvt.Ltd,

Eversun Energy Pvt. Ltd.

Pace Power Systems Pvt.Ltd

Gensol Consultants Pvt. Ltd.

Moser Baer Solar Limited

Lane, Pattom Palace P.O.,Trivandrum

Emmvee Photovoltaic Power Pvt.Ltd

Luminous Power Technologies Pvt. Ltd

Agni Power and electronics Pvt.Ltd

Millennium Synergy Pvt. Ltd

Jain Irrigation Systems Ltd

Power One Micro Systems Private Ltd.

Alectrona Energy Pvt.Ltd

Solar Integration Systems India Pvt. Ltd.

BOSCH LIMITED

Sukam Power Systems Ltd.

Shobitha Electronics (Manufacture)Pvt. Ltd

Tata Power SolarSystems Ltd.

PAE Renewables Private Ltd

Waaree Energies Pvt. Ltd

Sungrace Energy Solution Pvt.Ltd

Allocated capacity (KWp)

Price Rs./Wp

M/s Azure Power India Pvt. Ltd.

500

43.00

M/s Thermax Limited

1000

83.00

M/s SEI Green Technology Pvt. Limited

500

87.96

M/s Azure Power India Pvt. Ltd.

500

43.00

M/s SEI Green Technology Pvt. Limited

500

87.96

Name of the Successful Bidder

BANGALORE

DELHI

 Chennai

Moh Sai M Reth Reth Reth Omic Chen Marr Gree Vaibh A. Si Indir VVD Uniq RAA Indec Finle Arun Alex

 Mysore   Coimbatore  Kochi

Kerala

TamilNadu

  Trivandrum

Successful Bidders for Allocation of Roof Top PV Projects in Selected Cities/States CHENNAI M/s Azure Power India Pvt. Ltd.

500

43.00

M/s Thermax Limited

1000

83.00

M/s SEI Green Technology Pvt. Limited

500

85.22

500

43.00

GURGAON M/s Azure Power India Pvt. Ltd.

Successful Bidders for Allocation of Roof Top PV Projects in Selected Cities/States-Phase-II Allocated capacity (kWp)

PriceRs./ Wp

M/s M/s M & B Switchgears Limited

500

78.00

M/s Photon Energy Systems Limited

500

81.00

Name of the Successful Bidder

BHUBANESWAR / CUTTACK

GURGAON

M/s Azure Power India Pvt. Ltd.

500

59.00

M/s Rajasthan Electronics and Instruments Ltd.

M/s Aditya Green Energy Pvt. Ltd.

1000

59.40

NOIDA / GREATER NOIDA

M/s Fourth Partner Energy Pvt. Ltd.

250

66.90

M/s Azure Power India Pvt. Ltd.

500

M/s M & B Switchgears Limited

250

74.00

M/s Jakson Engineers Ltd.

500

M/s M & B Switchgears Limited

500

JAIPUR

250

M/s Jakson Engineers Ltd.

500

67.00

RAIPUR / NAYA RAIPUR

500

76.00

M/s Jakson Engineers Ltd.

500

M/s Jakson Engineers Limited

300

63.00

M/s M & B Switchgears Limited

M/s Lanco Solar Energy Pvt. Ltd.

250

82.00

M/s Fourth Partner Energy Pvt. Ltd.

250

77.98

M/s ElcomponicsTechnologies India Pvt. Ltd.

1000

79.00

M/s Godrej & Boyce Mfg. Co. Ltd.

300

M/s Lanco Solar Energy Pvt. Ltd.

250

M/s WelspunEnergy Limited

500

83.00

M/s Azure Power India Pvt. Ltd.

M/s SEI Green Technology Pvt. Ltd.

450

84.88

M/s Lanco Solar Energy Pvt. Ltd.

250

80.00

M/s Chemtrols Solar Pvt. Ltd.

250

86.00

M/s Sharika Enterprises Pvt. Ltd.

250

88.00

HYDERABAD

AKSHAYA SOLAR POWER (INDIA) PVT. LTD.

ENERTECH UPS PVT LTD

www.trinasolar.com

Rajasthan

Madhya Pradesh

Karnataka 130 MW Solar Tender Bidding Results Name

Project Capacity (MW) 15 15 20 20 10 20 15 10 15 10 20 20 10 2 2 2 1 4 1 4 4 4 4 2 2 1 1 4 2 2 4 4

Direct Normal Irradiance (DNI) Source : NREL

(Selected Projects from 300MW Solar Tender in 2013)

RE Generators (Solar PV)

ROOFTOPS

Enrich Energy Pvt. Ltd.

One Patriots Park Bedford, MA 01730-2396, USA pvsales@spirecorp.com

REC Mechanism : Registered

& TRAINING

REDESIGNING

Spire Corporation

Solar Modules From 10W-300W IEC61701 ed1, IEC 61215, 61730-1 + IEC 61730-2 Certified by Phone : +91 98480 37227 E-mail : raju@akshayasolar.com

w w w . a k s h a y a s o l a r. c o m

The right solution for Photovoltaic Power Systems.

Maximizes Yield with Minimal Increase in-cost!

More than 600 MW PV projects already equipped with Bonfiglioli Inverters in India.

The Most Proven Single & Dual Axis Trackers in the World!

The Global Leader In Professional PV Monitoring And Energy Management

+91 44 45532153 +91 44 42120230

www.solar-log.com

www.infiniteercam.com info@infiniteercam.com

SOLAR MAP OF INDIA Updated on 31 May 2014

4th Edition

Solar Cell Manufacturers Surana Ventures Ltd Solar Semiconductors Pvt Ltd Microsol International LL FZE

(Bidding Results from 200MW Solar Tender in 2013) Developer Name

Gopeshwar

PV Equiment Manufacturers And Suppliers

Andhra Pradesh

Uttar Pradesh

Capacity Bid

New Delhi

Maharishi Solar Technology Pvt Ltd New Delhi Moser Baer India Ltd New Delhi Indo Solar Ltd New Delhi

Price

Karnataka Tata Bp Solar India Q.Cell Systems India Pvt Ltd

Bangalore Bangalore

Lanco Solar

Gurgaon

Websol SL Energy Systems Ltd Vikram Solar Jupiter Solar Power Ltd

Kolkata Kolkata Kolkata

Euro Multivision Ltd

Kutch

SRI Colonizer

Rs. 8.01

Jakson

Rs. 8.44

Moser Baer

Rs. 8.97

Azure Power

Rs. 8.99

Reﬂex Energy

Rs. 9.24

Essel Infra

Rs. 9.27

DK Infracon

Rs. 9.33

Jyoti Buildtech

Applied Materials Bergen Group of Companies Blistech International Pvt Ltd Centhotherm Photovoltaics India Pvt Ltd Ecoprogetti Four-C-Tron Gmee Solar Equipment Co Ltd Gsolar Power Co. Ltd International Marketing Corporation Komax Automation India Pvt Ltd Mondragon Corporation Nmtronics India Pvt Ltd Schmid Group Singulus Technologies Corporation Von Ardenne Anlagentechnik GmbH Spire Corporation

Hyderabad Hyderabad Secunderabad

Haryana

West Bengal

Gujarat

Solar Inverters Manufacturers And Suppliers

Maharashtra Birla Surya Ltd.

Satara

Arunachal Pradesh  Itanagar



Jorhat Assam



 Guwahati

Sahibabad

Pradesh

Nagaland



Dimapur  Kohima Manipur

Jharkhand



Imphal Aizawl

 Rewa

 Agartala

Mizoram

Tripura

West Bengal

 Howrah  Kolkata

 Raipur

ilaspur

Chhattisgarh

Mounting Structures

PV Cables , Connectors , Juction Boxes

Andhra Pradesh

Access Solar Ltd

Hyderabad

Nuevosol Energy Pvt Ltd Pennar Engineered Building Systems

Hyderabad Hyderabad

Powertrac Solar Projects Ltd

Vapi

Nextech Electronics Pvt Ltd

Bangalore

DEHN India Pvt Ltd Ensto India Pvt Ltd Schneider Electric India Pvt Ltd Socomec India Pvt Ltd Vrinda Nano Technologies Pvt Ltd

Gurgaon Gurgaon Gurgaon Gurgaon Gurgaon

ACE Infrastructure Pvt Ltd Jurchen Technology India Pvt Ltd Scorpius Trackers Pvt. Ltd. Satec Envir Engineering Tata Blue Scope

Mumbai Mumbai Pune Mumbai Pune

ABB India Ltd Lapp India Pvt Ltd Mersen India Pvt Ltd

Bangalore Bangalore Bangalore

Ganges Internationale Pvt Ltd Maruti Rub Plast Pvt Ltd

New Delhi New Delhi

Jurchen Technology India Pvt Ltd Kimo Electronics Pvt Ltd Staubli Tec Systems India Pvt Ltd Weidmueller Electronics Inda Pvt Ltd

Mumbai Mumbai Mumbai Pune

NEPC Inﬁniteercam

Chennai Chennai

Citel Surge Protection Pvt Ltd Trinity Touch Pvt Ltd

New Delhi New Delhi

Andhra Pradesh Gujarat

Orissa

Haryana

Bhubaneswar 

Karnataka

Maharashtra

New Delhi

Pondicherry

Cooper Bussmann India Pvt Ltd

Pondicherry

Cape Electric Pvt Ltd Hensel Electric India Pvt Ltd KGS Engineering Ltd OBO Bettermann India Pvt Ltd

Sriperumbudur Sriperumbudur Chennai Chennai

Tamil Nadu

Karnataka

Maharashtra

New Delhi

Tamil Nadu

V. Varadharajan Sidarrtha Energy (P) Ltd. G.R. Thanga Maaligai Jewellers (P) Ltd. G.R. Thanga Maaligai (Firm) G.R. Thanga Maaligai & Sons Pradinn Energy (P) Ltd. Sri Saravana Engg. Bhavani (P) Ltd. V. Subramanian & Co., Engineering & Marketing Consultants Welspun Solar Tech Pvt. Ltd. Sei Adityasakthi (P) Ltd. Sree Sastha Grinders Voltech Engineer (P) Ltd. M.S. Green Energy Supreme Hi tech engineering Olympia Infratech (P) Ltd. IL & FS Renewable Energy Ltd. United Telecomes Ltd. Emami Cement Ltd.

Name of the Successful Bidder

Allocated capacity (KWp)

PALATANA Waaree Energies Ltd, Mumbai

1000

CHENNAI

63.00 76.00 67.00 79.00 81.00 82.00

Puducherry

GreenBrilliance Energy Pvt. Ltd. Harsha Abakus Solar Pvt. Ltd. Madhav Infra Projects Ltd

Baroda Ahmedabad Vadodara

Lanco Solar Energy Pvt Ltd

Gurgaon

BORG Energy India Pvt Ltd EMMVEE Solar Systems Private Limited Enerparc Energy Pvt Limited juwi India Renewable Energies Pvt Ltd Ravano Green Power

Bangalore Bangalore Bangalore Bangalore Bangalore

PTL Solar Energy Pvt Ltd

Kerala

M and B Switchgears Limited) Vivaan Solar

Indore Gwalior

Belectric Photovoltaic India Private Limited Chemtrols Solar Pvt. Ltd Deshmuk Eng Godrej & Boyce Mfg. Co. Ltd. IBC Solar Projects Private Limited Ikaros Solar India Private Limited Inspira Martifer Solar Kirloskar Integrated Technologies Ltd Mahindra EPC Services Pvt. Ltd Refex Energy Ltd Sterling And Wilson Ltd. Surana Ventures Ltd., Tata Power Solar Visa Power Waaree Energies Pvt Ltd Shan Solar Pvt Ltd Solpower Green Pvt. Ltd TBEA Sunoasis Co. Ltd Solairdirect Energy India Pvt Ltd

Mumbai

Karnataka

5 5 5 5 5 23 3 2

VS Lignite Power (P) Ltd. Waaree Energies (P) Ltd. S.A.R. Capital Pvt. Ltd. Jaitech Power House (P) Ltd. Eagle Press (P) Ltd. Madras Security Printers (P) Ltd. Eco Grid Energies (Tiruvarur Distt.) Eco Grid Energies (Ramnad Distt.) Cresent Power Ltd. Pasiphae Power (P) Ltd. Adhiev India (P) Ltd. Deccan Solar Park Hero Fashion Best Corporation (P) Ltd. Brics Solar Power (P) Ltd. Bee Solar Energy (P) Ltd. Swiss Park Vanijya (P) Ltd. Muthu Pappa Green Energies (P) Ltd.

60 10 5 5 1 1 2 20 100 3

25 25 5 1 5 5 10 4 10 25 14 2 1 2 5 3 26 10

Successful Bidders for Allocation of Roof Top PV Projects in Selected Cities/ States-Phase-III

58.00

PHOCOS India Solar Pvt Ltd

Gujarat

LOI Holders from Bidders of 1GW Solar Tenders

90.00

Hyderabad Hyderabad Secunderabad

Puducherry

Fourth Partner Energy Pvt Ltd, Hyderabad

250

Ravano Solar India Pvt Ltd, Bangalore

500

Tata Power Solar Systems Limited, New Delhi

500

Sree Nandhees Technologies Pvt Ltd, Chennai

500

Mahindra EPC Services Pvt Ltd, Mumbai

250

COIMBATORE Ravano Solar India Pvt Ltd, Bangalore

500

Sree Nandhees Technologies Pvt Ltd, Chennai

500

CHANDIGARH Rays Power Infra Pvt Ltd, New Delhi

250

Waaree Energies Ltd, Mumbai

250

GWALIOR Rajasthan Electronics & Instrumentation Limited, Jaipur

DELHI Tata Power Solar Systems Limited, New Delhi

500

Fourth Partner Energy Pvt Ltd, Hyderabad

250

Jakson Engineers Limited, Noida

250

KOLKATA

Kerala

Madhya Pradesh Maharashtra

Mumbai Nasik Mumbai Mumbai Mumbai Mumbai Pune Mumbai Mumbai Mumbai Hyderabad Mumbai Mumbai Mumbai Mumbai Mumbai Mumbai Pune

New Delhi

Fonroche Saaras Energy Pvt. Ltd, Mumbai

250

Tata Power Solar Systems Limited, New Delhi

500

Vikram Solar Pvt Ltd, New Delhi

250

MUMBAI Ravano Solar India Pvt Ltd, Bangalore

500

Enrich Energy Pvt Ltd, Pune

1000

PUNE Fonroche Saaras Energy Pvt. Ltd, Mumbai

250

Aditya Green Energy Pvt Ltd, Latur

500

Tata Power Solar Systems Limited, New Delhi

500

Ravano Solar India Pvt Ltd, Bangalore

500

C & S Electric Ltd Jakson Power Solution SunPower Solar India Pvt Ltd. Bergen Group Elcomponics Sales Pvt Ltd Rays Power Experts Pvt Ltd Inetest Technologies India Pvt Ltd Moser Baer Solar Ltd ADS Projects & Systems

New Delhi New Delhi New Delhi New Delhi New Delhi New Delhi New Delhi New Delhi New Delhi

Rays Power Infra Pvt Ltd Tecpro Systems Limited Swelect Energy systems Ltd Larsen & Toubro Ltd Sunedison Energy India Pvt Ltd

Jaipur Chennai Chennai Chennai Chennai

Vikram Solar Pvt Ltd

Kolkata

Rajasthan

West Bengal

250

Bangalore Bangalore Gurgaon Pune Gurgaon Chennai Pune Pune Pune Pune Gandhinagar Gurgaon Uttarakhand Gurgaon Bangalore Mumbai New Delhi Chennai New Delhi Bangalore Mumbai Kolkata Vadodara Chennai Mumbai Pune Pune Gurgaon Chennai Bangalore Germany Germany Pune Gurgaon Germany Taiwan Gurgaon Vapi Chennai Mumbai

Andhra Pradesh

Cirus Solar Pvt Ltd Enﬁnity Solar Solution Pvt Ltd Premier Solar Powertech Pvt Ltd

Access Solar Ltd Daksh Energy Systems Aditi Solar Pvt Ltd Akshaya Solar Power Pvt Ltd Premier Solar Systems Pvt Ltd Surana Ventures Ltd Sungrace Energy Solutions Pvt Ltd Photon Energy Systems Ltd Solar Semiconductor Pvt Ltd Titan Energy Systems Ltd XL Telecom Energy Ltd India Renewables Andromeda Energy Technologies Pvt Ltd

Hyderbad Hyderbad Hyderbad Hyderbad Hyderbad Hyderbad Hyderbad Hyderbad Hyderbad Secunderabad Secunderabad Secunderabad Secunderabad

Green Brilliance Photonix Solar Pvt Ltd Jain Irrigation Systems Ltd PLG Power Ltd Banbury Solar Chemtrols Solar Deityfuel Energy Pvt Ltd Waaree Energies Pvt Ltd Kirloskar Integrated Technologies Ltd SCHOTT Glass India Pvt. Ltd.

Pune Pune Jalgaon Mumbai Mumbai Mumbai Pune Mumbai Pune Pune

Maharishi Solar Technology Pvt Ltd Plaza Power Infrastructure Co. Arratech Technologies Pvt Ltd Darbari Green Energy Systems Ltd Moser Baer India Ltd Tapan Solar Energy Pvt Ltd Alpex Exports Pvt Ltd

New Delhi New Delhi New Delhi New Delhi New Delhi New Delhi New Delhi

Emmvee Photovoltaic Power Pvt. Ltd. HHV Solar Technologies Pvt Ltd Tata Bp Solar India Conergy Energy Systems India Pvt Ltd Kotak Urja Pvt Ltd Q.Cell Systems India Pvt Ltd Microsun Solar Tech Pvt Ltd Rashmi Industries Nextech Electronics Pvt Ltd Shan Solar Pvt Ltd

Bangalore Bangalore Bangalore Bangalore Bangalore Bangalore Bangalore Bangalore Bangalore Bangalore

Maharashtra

New Delhi

Karnataka

Rajasthan

Ajit Solar Pvt Ltd Jaipur Rajasthan Electronics & Instruments Ltd Jaipur Uttar Pradesh Central Electronics Ltd Sahibabad

West Bengal

Vikram Solar Pvt Ltd Websol SL Energy Systems Jupiter Solar Power Ltd Reliance Industrial Ltd Synergy Renewable Energy Ltd Enﬁeld Solar Energy Ltd Modern Solar Pvt Ltd Sova Power Ltd

Kolkata Kolkata Kolkata Kolkata Kolkata Kolkata Kolkata Kolkata

Ammini Solar Pvt Ltd

Trivandrum

Evergreen Solar Systems India Pvt Ltd Swelect Energy Systems Ltd

Coimbatore Chennai

Goldi Green Technologies Pvt Ltd Topsun Energy Ltd Lubi Electronics Shivam Photovoltaic Pvt Ltd Sonali Energees Pvt Ltd GreenBrilliance Energy Pvt Ltd

Surat Gandhinagar Gandhinagar Ahmedabad Surat Vadodara

Lanco Solar BYD Company Ltd

Gurgaon Gurgaon

Kerela

Tamil Nadu Gujarat

Haryana

JNNSM PHASE 2 BATCH 1 - 750 MW Solar Tender Bidders & Allottes for DCR Category (Part-A) Sl. Bidder Ntame No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19

Module Manufacturers

Andhra Pradesh

Haryana

110 5 15 15 15 10 2 2 1 34 10 5 1 2 5 1 2 2 10

ABB Ltd AEG Power Solutions India Pvt Ltd Schneider Electric India Pvt Ltd Luminous Renewable Energy Solutions Su-Kam Power Systems Ltd Bonﬁglioli Transmission Pvt Ltd Emerson Industrial Automation Refu Solar Electronics Pvt. Ltd. Enertech UPS Pvt Ltd Fronius Solar Hitachi Hi-Rel Power Electronics Pvt. Ltd. Ingeteam Pvt Ltd Kevin Power solution Ltd OutBack Power Power-One Microsystems P Ltd Proinso Statcon Power Controls Ltd Swelect Energy Systems Ltd TBEA Sunoasis Co. Ltd Vispira Controls SMA Solar India Pvt Ltd Galileo Solar India Pvt Ltd ACVA Solar Pvt. Ltd Danfoss Industries Pvt. Ltd. Toshiba Mitsubishi –Electric Industrial Systems Corp Gefran India Pvt Ltd Vacon Drives and Controls Private Limited Delta Energy Systems India Pvt. Ltd. Zigor India Pvt. Ltd. Power Electronics LTi DRiVES GmbH KACO new energy GmbH Santerno India pvt Ltd Bergen Group of Companies Platinum GmbH Shenzhen Kstar New Energy Co Ltd Socomec India Pvt Ltd Powertrac Solar Projects Ltd Gamesa Electric INVT Electric India Pvt Ltd

EPC Contractors

Tamil Nadu

han Breweries & Distilleries Ltd. Mythili Power Company Pvt Ltd. hink Energy Corpn. (Karur Distt.) hink Energy Corpn. (Tuticorin Distt.) hink Energy Corpn. (Ramnad Distt.) cron Bio-Genesis Ltd. nnai Testing Laboratory Pvt. Ltd. rigold Steel and Power Pvt. Ltd. en Line Solar Pvt. Ltd. hav Jhothi Power Utility Services P Ltd. ivasankaran ra Industries & Sons que Micro computers (Karur) Pvt. Ltd. ASI Green Earth Energy P Ltd. co Ventures Ltd. ey Energy (P) Ltd. nachala Impex (P) Ltd. x Green Pvt. Ltd.

Bangalore New Delhi Gurgaon Bangalore Mumbai Bangalore China China Mumbai Gurgaon Italy Noida Germany Germany Germany USA

For more information contact: Bonfiglioli Renewable Power Conversion India Pvt. Ltd. #543, 14th Cross, 4th Phase, Peenya Industrial Area Bengaluru – 560 058. Tel.: +91-80-28361014/15/16 E-mail: brpci@bonfiglioli.com | Website: www.bonfiglioli.com

20 21 22 23 24 25 26 27 28 29 30 31 32 33

Swelect Energy Systems Ltd. Sharda Construction & Corporation Pvt. Ltd. Today Homes And Infrastructure Pvt. Ltd. SEI Suncells Pvt. Ltd. Today Homes And Infrastructure Pvt. Ltd. SEI Sitara Pvt. Ltd. Laxmi Diamond Pvt. Ltd. Today Homes And Infrastructure Pvt. Ltd. RDA Energy Pvt. Ltd. Palimarwar Solar Project Pvt Limited Solairedirect Energy India Pvt. Limited Azure Power India Pvt. Ltd. Karnataka Power Corporation Ltd. Solairedirect Energy India Pvt. Limited Azure Power India Pvt. Ltd. Waaree Energies Pvt. Ltd. Hero Solar Energy Pvt. Ltd. IL&FS Energy Development Company Limited Green Energy Development Corporation Of Odisha Limited IL&FS Energy Development Company Limited Ranji Solar Energy Pvt. Ltd. Welspun Renewables Energy Ltd. SEI Green Flash Pvt. Ltd. Tata Power Renewable Energy Ltd. Azure Power India Pvt. Ltd. Welspun Renewables Energy Ltd. Welspun Renewables Energy Ltd. ACME Gurgaon Power Pvt. Ltd. SEI Tejas Pvt. Ltd. ACME Rajdhani Power Pvt. Ltd. ACME Mumbai Power Pvt. Ltd. Medha Energy Pvt. Ltd. IL&FS Renewable Energy Limited

Bidsubmitted VGF Sought (MW) byBidder in(INR/ MW) 10 135,00,000 10 139,50,000 10 144,50,000 20 147,29,000 10 169,50,000 30 186,97,000 10 202,00,000 10 209,50,000 10 212,00,000 10 216,40,000 20 219,00,000 40 220,00,000 10 225,00,000 10 229,00,000 20 230,00,000 50 235,00,000 10 239,00,000 20 239,99,000 20 240,00,000 20 20 20 30 40 40 20 20 20 10 20 20 20 10

241,00,000 244,99,872 245,60,000 2.4326 Cr. 2.4490 Cr. 2.4500 Cr. 2.4569 Cr. 2.4600 Cr. 2.4700 Cr. 2.4700 Cr. 2.4849 Cr. 2.4899 Cr. 2.4900 Cr. 2.5000 Cr.

JNNSM PHASE 2 BATCH 1 750 MW Solar Tender Bidders & Allottes for OPEN Category (Part B) Sl. Bidder Ntame No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82

Gujarat Power Corporation Ltd. SEI L'Volta Pvt. Ltd. Finnsurya Energy Pvt. Ltd. Rishabh Buildwell Pvt. Ltd. SEI Suryalabh Pvt. Ltd. Finnsurya Energy Pvt. Ltd. Medha Energy Pvt. Ltd. Backbone Enterprises Limited Today Homes And Infrastructure Pvt. Ltd. Focal Energy Solar India Pvt. Ltd. Gujarat State Electricity Corporation Limited Enersan Power Pvt. Ltd. Acme Mumbai Power Pvt. Ltd. Belectric Photovoltaic India Pvt. Ltd. 4G Identity Solutions Pvt. Ltd. Acme Rajdhani Power Pvt. Ltd. Today Homes And Infrastructure Pvt. Ltd. Focal Energy Solar India Pvt. Ltd. Hero Solar Energy Pvt. Ltd. Acme Gurgaon Power Pvt. Ltd. Vishwaj Energy Private Ltd. Azure Power India Pvt. Ltd. Hero Solar Energy Pvt. Ltd. Focal Energy Solar India Pvt. Ltd. Sunil Hitech Engineers Ltd. The West Bengal Power Development Corporation Ltd. Surya Vidyut Ltd. Sunil Hitech Engineers Ltd. Maheswari Mining And Energy Pvt. Ltd. Ranji Solar Energy Pvt. Ltd. Oriental Sales Agencies India Pvt. Ltd. SEI Phoebus Pvt. Ltd. Mahindra EPC Services Pvt. Ltd. Vishva Vishal Engineering Limited Today Homes and Infrastructure Pvt. Ltd. Azure Power India Pvt. Ltd. Sunil Hitech Engineers Ltd. Sharda Construction & Corporation Pvt. Ltd. Renew Solar Power Pvt. Ltd. (Solo) Hero Solar Energy Pvt. Ltd. RDA Energy Pvt. Ltd. Inspira Enterprise India Pvt. Ltd. Azure Power India Pvt. Ltd. Sunil Hitech Engineers Ltd. Aleo Manali Hydropower Pvt. Ltd. Hira Ferro Alloys Limited Renew Solar Power Pvt. Ltd. (Solo) Laxmi Diamond Pvt. Ltd. Sunil Hitech Engineers Ltd. Subhash Infraengineers Pvt. Ltd. IL&FS Energy Development Company Ltd. IL&FS Renewable Energy Limited First Solar Power India Pvt. Ltd. Neel Metal Products Limited (JBM GROUP) Welspun Renewables Energy Ltd. IL&FS Energy Development Company Ltd. IL&FS Renewable Energy Limited IL&FS Energy Development Company Ltd. Green Infra Corporate Solar Limited Green Infra Corporate Solar Limited Green Infra Corporate Solar Limited Neel Metal Products Limited (JBM GROUP) Welspun Renewables Energy Ltd. Gujarat State Electricity Corporation Limited West Bengal State Electricity Distribution Company Limited Shapoorji Pallonji Solar PV Pvt. Ltd. Hira Ferro Alloys Limited Essel Infra Projects Ltd. Essel Infra Projects Ltd. Essel Infra Projects Ltd. Welspun Renewables Energy Ltd. Neyveli Lignite Corporation Limited Emami Cement Limited Essel Infra Projects Ltd. Welspun Renewables Energy Ltd. Essel Infra Projects Ltd. Welspun Renewables Energy Ltd. Sargam Retails Pvt. Ltd. Jakson Power Pvt. Ltd. Sargam Retails Pvt. Ltd. KSK Energy Ventures Ltd. Madhav Infra Projects Limited

p Composite Default screen

Bidsubmitted VGF Sought (MW) byBidder in (INR/ MW) 10 17,50,000 20 73,29,000 30 81,99,000 10 85,00,000 30 87,28,494 10 96,99,000 20 97,79,439 10 99,00,000 10 99,50,000 10 99,89,000 10 104,00,000 10 108,00,000 20 113,99,884 10 117,90,000 10 118,00,000 20 118,98,897 10 119,50,000 10 119,99,000 10 122,00,000 20 129,99,943 10 130,00,000 40 130,00,000 10 131,00,000 20 131,80,000 10 135,00,000 10 1.1600 Cr. 10 10 10 20 20 10 30 20 10 40 10 10

1.4000 Cr. 1.4400 Cr. 1.4475 Cr. 1.4499 Cr. 1.4577 Cr. 1.4825 Cr. 1.4899 Cr. 1.4900 Cr. 1.4900 Cr. 1.4950 Cr. 1.5300 Cr. 1.5300 Cr.

50 20 10 10 20 10 10 10 50 10 10 10 20 20 30 20 20 20 20 20 10 20 20 30 20 10 10

1.5400 Cr. 1.5800 Cr. 1.5800 Cr. 1.5900 Cr. 1.5950 Cr. 1.6200 Cr. 1.6250 Cr. 1.6700 Cr. 1.6800 Cr. 1.6800 Cr. 1.7100 Cr. 1.7100 Cr. 1.7500 Cr. 1.7500 Cr. 1.7500 Cr. 1.7900 Cr. 1.7900 Cr. 1.8000 Cr. 1.8000 Cr. 1.8200 Cr. 1.8489 Cr. 1.8489 Cr. 1.8489 Cr. 1.8800 Cr. 1.8900 Cr. 1.9000 Cr. 1.9000 Cr.

20 10 20 20 20 20 10 10 20 20 20 20 30 20 30 30 10

1.9500 Cr. 1.9700 Cr. 1.9800 Cr. 1.9800 Cr. 1.9800 Cr. 1.9900 Cr. 2.0000 Cr. 2.02 Cr. 2.0700 Cr. 2.1000 Cr. 2.1600 Cr. 2.2000 Cr. 2.24 Cr. 2.2600 Cr. 2.34 Cr. 2.3750 Cr. 2.4900 Cr.

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PV CONNECT 90x60 mm Magazine AD.cdr Tuesday, March 12, 2013 10:36:30 AM

EDITORIAL Government of India, The Ministry of Commerce & Industry, Directorate General of Anti-Dumping & Allied Duties released their Final Findings on May 22nd, 2014, 156 Page Document recommending imposition of AntiDumping Duty on Imports of Solar Cells/Modules from Malaysia, China, Chinese PR & USA The ministry is recommending the imposition of AD duties of $0.81/W on a number of Chinese producers including JA Solar, Gold Poly, Wuxi Suntech Power, China Sunergy and the Baoding Tianwei Malaysian manufacturers, including Q-Cells Malaysia, will face AD duties of $0.62/W and Taiwanese producers – NeoSolar among them – will have to find $0.59/W. Having attempted to argue, unsuccessfully, thin film products were not interchangeable with multi-crystalline cells and should not be covered by the investigation, U.S. manufacturer First Solar got off comparatively lightly, with duties of $0.11/W recommended. The U.S. Trade Representative has filed two cases against India at the World Trade Organisation (WTO), complaining local content rules discriminate against U.S. solar companies. Those manufacturers were found to have dumped products in India with a dumping margin of 100-110% and a second group of Chinese manufacturers, found to have caused less damage, will be hit with AD tariffs of $0.64/W. Those manufacturers, including the five who proposed a price undertaking alongside famous industry names including Hanwha SolarOne, Chint Solar, LDK Solar and Yingli Energy, were found to have dumped products at 60-70% below a fair price. Chinese manufacturer Canadian Solar will also face an AD tariff of $0.64/W, having been found to have benefited from a 60-70% dumping margin. India also believes that anti-dumping duties imposed on Chinese solar producers by the European Union and the United States have further driven down the price of Chinese solar products, to the detriment of Indian suppliers. The ministry does not appear to have recommended back-dating the AD duties, however, stating penalties will be applied ‘from the date of notification to be issued in this regard by the central government.’ Opponents to the final decision pointed out that of the 39 Indian solar companies contacted by the authorities to comment on any injury dumping had caused them – after the original complaint by Indosolar, Jupiter Solar Power and Websol Energy System – only three responded. Critics of the probe claimed even those three respondents – Moser Baer Solar, Moser Baer Photovoltaic and Tata BP Solar – benefited from imports of the dumped goods in question, and should be ignored. The Indian Ministry of Environment and Forests and the Ministry of New and Renewable Energy both spoke out against the imposition of AD penalties with the latter claiming the country’s domestic content requirements – which stipulate a percentage of solar projects have to include home-grown materials – are sufficient to protect domestic manufacturing. The Indian Ministry of Commerce rejected a call for the state aid provided by the U.S. Export-Import Bank to American exporters to be used in the calculation of a fair price for U.S. solar goods. Investigators agreed to exclude Indian companies Moser Baer and Tata BP Solar from the definition of domestic industry after both admitted importing dumped products but dismissed claims there are 90 Indian solar product manufacturers, rather than the 42 mentioned by the original complainants in the case. The thorny question of whether the petitioners should not be considered domestic industry because of their status as Special Economic Zone (SEZ) and Export Oriented Units (OEU) was also debated. Opponents argued that, as both types of business are constituted as such to focus on exports, they cannot be considered domestic industry. But ministry of commerce officials dismissed the claim, stating such businesses are based in India, manufacture the goods in question in the country and sell them in India, in direct competition with Indian rivals. The Chinese-Canadian company attempted to argue its panels should be excluded from the anti-dumping investigation because of differences between them and Indian-made products. The arguments were ignored by ministry of commerce officials who described the modules in question as ‘innovations’ rather than different products and cited previous instances where EU investigations had included variations of products even if not manufactured in the EU. One of the thorniest arguments which raged during the Indian ministry of commerce’s anti-dumping (AD) investigation into cells and modules manufactured in China, Taiwan, Malaysia and the U.S., concerned whether thin film products should be considered ‘like products’ to crystalline ones and thus also subject to duties. Investigators decided both types of cells were comparable in physical and chemical characteristics, manufacturing process and technology, final functions and uses, product specifications, pricing, distribution and marketing and tariff classification. The source of this write up is from India’s Ministry of Commerce, Reuters, Bloomberg, PVMAg& ET.

Anand Gupta Editor & CEO

EMAMI BIODIESEL: PERFECT FOR YOUR POCKET. PERFECT FOR THE PLANET. The rising costs of traditional fuels like petro-diesel have created an urgent requirement for an affordable, eco-friendly alternative. Emami Biotech Ltd. has fulfilled this need with the ideal replacement – Biodiesel. It extends machine life, reduces maintenance and is easier to handle and store. Emami’s biodiesel is backed by superior technology and production capabilities. Highlights of Emami’s biodiesel • Produced at state-of-the art multi-feed stock facility commissioned by Desmet Ballestra, a Belgian technology company. • The plant is capable of manufacturing biodiesel conforming to EU (EN14214) and BIS standards. • Low sulphur content; out-performs industry standards*. • Betters industry benchmarks in ash & moisture content, total contaminations and carbon residue indicators. • Regular exporter to many European countries. • ISCC Certification - It is the pre-requisite for export of biodiesel to Europe. ISCC is one of the leading certification systems for sustainability & greenhouse emmissions. USES OF BIODIESEL Vehicles: Can be used in every diesel engine powered vehicle. (Millions of miles were logged on biodiesel in EU nations). Farming and Industrial Equipments: Can be used for construction, mining, and farm machinery. Marine Vessels: Can be used in marine engines safely. Marine use is especially attractive due to the elimination of any possibility for contamination of waterways. Stationary Power Generation: With new power generation capacity coming online, biodiesel makes an attractive choice to meet the regulations. Many stationary applications require exhaust emission control system, which will work well with biodiesel. Boiler Fuel: Can be substituted easily for gas or fuel fired boilers. Hybrid Vehicles: With many states now mandating hybrid electric vehicles (including the fuel cell hybrid), biodiesel will make excellent reforming fuel. Agriculture Adjuvants: Biodiesel is used as a carrier for pesticides and fertilisers in agriculture sprays due to it being nontoxic and biodegradable. Solvents: Can be used as industrial solvents and as a replacement of high VOC containing petroleum solvents. With regulations driving the VOC contents lower for solvents used in industries, biodiesel offers an attractive solution. Lubricity Agent/Additive: Our biodiesel can also be used as a lubricity agent/enhancer in many applications. It is especially useful in marine applications where water contamination with petroleum lubricity agents can create problems. With the low-sulphur fuel regulation of the future, biodiesel can be used as a lubricity additive. 1-2% biodiesel added to diesel fuel can increase diesel lubricity by 65%. Textile Coning Oil: It is a suitable replacement of coning oil. Bio Jute Oil: It is used for processing of raw jute fibre. It is completely free from aromatic hydrocarbons. Metal Working Fluids: Used for metal-cutting oil to reduce environmental pollution and also used as coolant. Paint Industry: It can be used as drying oil for the paint industry. Fuel Oil: It can be used in gen set with the blend of diesel oil. It can also be used in boiler and road making equipment.

FEATURES

ADVANTAGES OF BIODIESEL

Environment Friendly

It is an environment-friendly fuel, the best alternative to common petroleum diesel. Biodiesel is 11% Oxygen by weight and contains no Sulphur. It produces approximately 80% lesser CO2 (Carbon Dioxide) and almost 100% lesser SO2 (Sulphur Dioxide) emission.

Credibility

It is a proven fuel with over 30 million successful US road miles and over 20 years of usage in Europe.

No Modification of Engine Required

Biodiesel is the only alternative fuel that runs in any conventional, unmodified diesel engine.

How to Use

It can be used alone or mixed in any ratio with petroleum diesel fuel. The most common blend of mixing is 20% biodiesel with 80% petroleum diesel, commonly known as B20 for transport vehicle. However, for a Static Engine, 100% biodiesel commonly known as B100 can be used.

Same Power Output

Biodiesel offers the same power output as petro-diesel fuel.

Extended Life of Engine

The use of biodiesel can extend the life of diesel engines because lubricates better than petroleum diesel fuel, while fuel consumption, auto ignition, power output, and engine torque remain unaffected. Biodiesel also has a cleansing effect on engine walls.

Safe to Handle & Store

Biodiesel is safe to handle and transport because it is as biodegradable as sugar, 10 times less toxic than table salt, and has a high flashpoint of about 1250C as compared to petroleum diesel fuel, which has a flash point of 550C.

Cost Advantage

Price of biodiesel is the same as that of petroleum diesel, but due to its properties, it increases the life of the engine and reduces the maintenance cost over the period of time.

COMPARISON OF CALORIFIC VALUE OF HIGH SPEED DIESEL AND BIODIESEL PRODUCT

UNIT

GROSS

CV % OF PURITY

NET CV

SPECIFIC GRAVITY

EFFECTIVE CV

(1)

(2)

(3)

(4)

(5) = (3)X(4)

(6)

(7) = (5)x(6)

HSD

Kcal/Kg

10700

95%

10165

0.820

8335

Bio-Diesel

Kcal/Kg

9600

99.5%

9552

0.875

8358

• To know more about reduction in biodiesel emissions compared to conventional diesel, according to EPA, visit www.emamibiotech.com • Comparison of specification of petro-diesel, biodiesel & Emami biodiesel, visit www.emamibiotech.com Thus, as the best choice for your budget & the planet, Emami’s biodiesel is perfect for your requirements. For more information, visit: www.emamibiotech.com Anand Gupta anand.gupta@emamigroup.com

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SOLAR PV INVERTERS

CONTENTS SOLAR PV INVERTERS

VOLUME 4 Issue # 5

Chetan Vyas 26

Editor & CEO:

ANAND GUPTA anand.gupta@EQmag.net

ACVA Solar Installs The First Darfon String Inverter Plus Smart Trimmer Based PV System.

Kapil Maheshwari 28

Optimize PV Systems To Achieve Financially Attractive Projects

PRINTER:

ANAND GUPTA

TRENDS & ANALYSIS

SAUMYA BANSAL GUPTA saumya.gupta@EQmag.net ARPITA GUPTA arpita.gupta@EQmag.net

PUBLISHING COMPANY DIRECTORS: ANIL GUPTA

SOLAR MOUNTING STRUCTURE

ANAND GUPTA

INTERVIEW

PUBLISHER:

ANITA GUPTA

Cedrik Zapfe

Consulting Editor: SURENDRA BAJPAI

Editorial Contributions:

Chetan Vyas,Kapil Maheshwari, Andreas Schmidt, ,Víctor Andrés Díaz, José Ramón Gordillo, Carlos Infante, Manuel Lagares, Prakash Easwaran, Giridaran Srinivasan, Markus Rees, Jörg Ziegler, Dr V K tikku, R.V.Girish, Cedrik Zapfe, Dr.Zapfe, Abhishek Kanneganti, Vijendra Bomb, Suntrak Synergy, Chirag Mehta, Fiona Le Poidevin, Sankalp Ved, Siddartha Ramakanth Keshavadasu, Sanket Gupta

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Fastening Solar Panels To Trapezoidal Sheet Metal Or The Upper Shell Of Insulated Trapezoidal .....

C. Narasimhan 58

RAASI GREEN EARTH ENERGY PRIVATE LIMITED

Cover Raasi Green Earth Energy Private Limited (RGEE) is the solar business vertical promoted by the Bangalore based RAASI Group. RGEE is developing South India’s ﬁrst and largest Solar Park of 100 MW capacity in Tamilnadu under PPP (Public Private Partnership) model with plug and play arrangement.

First Multi Developer, Multi Technology 100 MW Solar Park under PPP Scheme.

UNIQUE INVESTMENT OPPORTUNITY in the promising Renewable Energy sector

The data and information presented in this magazine is provided for informational purpose only.neither EQ INTERNATINAL ,Its affiliates,Information providers nor content providers shall have any liability for investment decisions based up on or the results obtained from the information provided. Nothing contained in this magazine should be construed as a recommendation to buy or sale any securities. The facts and opinions stated in this magazine do not constitute an offer on the part of EQ International for the sale or purchase of any securities, nor any such offer intended or implied Restriction on use The material in this magazine is protected by international copyright and trademark laws. You may not modify,copy,reproduce,republish,post,transmit,or distribute any part of the magazine in any way.you may only use material for your personall,Non-Commercial use, provided you keep intact all copyright and other proprietary notices.If you want to use material for any non-personel,non commercial purpose,you need written permission from EQ International.

EQ May 2014

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Giridaran Srinivasan 38

Chirag Mehta 60

Renewable Energy Financing in India: Challenges and Solutions

EQ NEWS

Delta To Unveil Its Latest Solar Energy Solutions At Intersolar Energy Management Control To Meet Minimum Technical Requirements In Photovoltaic Power Plants New Products, New Horizons – KACO new Energy At Intersolar Europe 2014.

New, Attractively Priced PV Backsheets from KREMPEL: Greater Scope. 100 Percent Transparency. Qualiﬁcation Testing Of Monolithically Assembled Modules Using Mwt PV Cells And Contacfoil®, A Large

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Guernsey – Financial Services For Cleantech Projects

Area, Laser Patterned Foil System Centrotherm Process And Production Solutions Provide Solar Cell Manufacturers With Signiﬁcant Cost Reductions And Flexibility For Tomorrow’s Cell Concepts

SOLAR BOS 46

SOLAR PV MANUFACTURING 39

R.V.Girish 48

Fiona Le Poidevin

8-25

SOLAR PV INVERTERS 30

Zigor Solar Inverters Power Rural Schools In Tamil Nadu

RENEWABLE ENERGY

Distributed MPPT and Monitoring Solutions for Solar Rooftops

Reliable & Rodent Resistant solar cables with Electron Beam Irradiation Technology Fastening Solar Panels To Trapezoidal Sheet Metal Or The Upper Shell Of Insulated Trapezoidal Sheet Metal Roofs

SOLAR MOUNTING STRUCTURE 56

Dual Axis Sun Tracker With Adjustable Seasonal Tilt For Increasing The Capacity Utilization Factor (Cuf) ...

RENEWABLE ENERGY

Prakash Easwaran 36

SOLAR MOUNTING STRUCTURE

SOLAR PV INVERTERS

CONTENTS

Sankalp Ved 64

Overrated Depreciation & Hyped REC failure

SOLAR THERMAL 57

Reduce Fuel Costs For Process Heating

RESEARCH & DEVELOPMENT 65

Panasonic HIT® Solar Cell Achieves World’s Highest Energy Conversion Efﬁciency of 25.6% at Research Level

Transmission & Distribution 66

Smart Metering- Powering Energy Conservation Through M2M Technologies Opening The Doors

PRODUCTS 70-76

Solar Mega Power Plants; Challenges in Execution

May 2014

& EQBusiness Financial GE Invests USD 24 Million In Welspun Renewables Energy’s Solar Project GE unit GE Energy Financial Services

and

We l s p u n

Renewables Energy Pvt. Ltd. (WREPL) announced recently a partnership to expand solar energy generation in India. GE Energy Financial Services is making itsfi rst investment in a solar power project in India, funding US$24 millionfora151 (D C) - m e g aw a t t

solar

photovoltaic power project that WREPL, one of India’s leading clean energy generating companies,put into operation in August 2013, almost eight months ahead of schedule. The Neemuchproject– one of the world’s largest solar plants – powers624,000 homes and mitigates an estimated 216,372

tons of carbon emissions annually. The project, part of WREPL’s 308 (DC)-megawatt operational solar portfolio, is located on an800-acre site in Neemuch, which sits on a 500-meter-high barren land ridge in the Indian state of Madhya Pradesh. The site receives among the highest levels of irradiation in India. WREPL’s project has reached a capacity utilization factor of 26 percent, among the country’s top generating projects. Power from the project is sold to the Madhya Pradesh state utility, helping the country meet its target of 20 percent energy generation from renewable sources by 2020.Mr. Vineet Mittal, Vice

Chairman, Welspun Renewables Energy Pvt. Ltd., said, “Welspun Renewables has established itself as the leading solar generator in the country. We have been working to empower the country through our efficient solar energy projects, which will help meet the country’s energy requirements in a sustainable manner.We are excited to work with GE.The combination of our renewable project development expertise and GE’s financial strength and risk management will help achieve the ambitious goals set by the government to expand the use of renewable energy in India.

Asia at GE Energy Financial Services, added, “With its geography, strong economic growth and commitment from the highest levels of government, India has gained incredible potential for the development of solar power. Our investment in Welspun Renewables’ solar projecthelps to realize that potential. WREPL’s history of developing benchmark projects ahead of schedule and with high generation power output helpsus expand globally across the energy spectrum andmeet the world’s energy needs.”

” Raghuveer Kurada,business leader for India and South East

Middle East and Africa Solar PV Demand to Grow by 50 Percent In 2014, According To NPD Solarbuzz Solar photovoltaic (PV) demand from the Middle East and Africa (MEA) region is set to grow 50 percent year-over-year in 2014. Between 2014 and 2018, annual PV demand will nearly triple as the MEA region becomes a key market for the global industry, according to findings in the latest NPD Solarbuzz Emerging PV Markets Report: Middle East and Africa. By 2018, annual PV demand in the MEA region is expected to reach 4.4 GW, with an upside potential of 10 GW. PV demand from the MEA region in 2013 grew by 670 percent, compared to 2012 when the region added approximately 140 MW. Previously, the region had a substantial share of small off-grid PV systems; however, in 2013, the on-grid segment became the main factor driving growth to more than 1 GW, with 1.6 GW forecast for 2014. In 2018, ground-mount 8

EQ May 2014

systems will account for over 70 percent of the market.Until now, PV growth in the MEA region has been predominantly driven by a small number of economically prosperous countries, in particular South Africa and Israel. Along with Saudi Arabia, these three countries are expected to offer stable demand levels within the MEA region over the next few years. “Solar PV represents an ideal renewable energy type across much of the Middle East and Africa,” noted Susanne von Aichberger, analyst at NPD Solarbuzz. “Even so, market drivers and constraints differ greatly between the two regions.”In most of the Middle East, renewable energy is seen as a means of preserving domestic oil and gas reserves. Middle East PV demand is forecast to reach 2.2 GW in 2018, with an

upside potential of 4 GW. Israel is projected to be the largest PV market in the Middle East in 2014, mainly through solar parks and rooftop systems, based on net-metering. Saudi Arabia’s ambitious renewables program will finally start to materialize this year, making it the largest PV market in the MEA region by 2016. Saudi Arabia is forecast to add 2.4 GW of new PV capacity between 2016 and 2018. Other key solar PV markets in the Middle East include the United Arab Emirates, Jordan, and Kuwait.With a severe shortage of electricity within Africa, in general, and large parts of the population of Sub-Saharan Africa having no access to electricity, solar PV is considered suitable for helping to stimulate social and economic development in the region. PV demand from Africa is forecast to reach 2.2

GW by 2018, with an upside potential of 6 GW. In 2014, African PV demand will continue to be dominated by South Africa, due to the construction of large-scale PV projects resulting from the Renewable Energy Independent Power Producer Procurement Program (REIPPP). “In the past 12 months, new plans for large PV projects have emerged across Africa, including the subSaharan countries of Cameroon, Swaziland, and Uganda,” added von Aichberger. “Announcements of PV projects in the 100 megawatts range have now become common, as a means of expanding power generation capacity quickly.”

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Indiaâ&#x20AC;&#x2122; Leading

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Karnataka 7MW

Rajasthan 29MW

Gujarat 153MW

Bihar 3MW

Madhya Pradesh 139MW

Maharashtra 9MW

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375MW Kerala 3MW

375MW

till 2013/14

GIPL provides solar panel mounting solutions that are engineered for the structural design and installation ease and meets the complete demand of customers.

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& EQBusiness Financial Saving Time And Money: the IBC TopFix 200 Eco Trapezoidal System System integrator IBC SOLAR is now offering the short-rail mounting system IBC TopFix 200 Eco trapezoidal for metal pitch-roofs. Agricultural and industrial used facilities often have trapezoidal metal roofs well-suited for photovoltaic installations. In these cases, the direct attachment of the mounting system to the raised beads is the

fastest and most cost effective way of installation. Compared to conventional trapezoidal systems, IBC TopFix 200 Eco trapezoidal uses short rails, resting on only two raised beads. IBC TopFix 200 Eco trapezoidal is suitable for almost all module types and makes a positive impression with its pre-assembled trapezoidal mountings. The product has also been developed for the process of

thermal expansion between the solar module and roofing, and therefore provides a permanent and secure connection. The fact that the system uses a minimal amount of materials also makes it very affordable. It is particularly suitable for trapezoidal sheet roofs in the price-sensitive commercial sector. The IBC TopFix 200 Eco trapezoidal system is suitable for

trapezoidal metal roofs with a thickness of at least 0.5 mm and a minimum width of the raised beads of 15 mm. It comes with a product warranty of ten years and is available now. At this year’s Intersolar Europe, from June 4 to 6 in Munich, IBC SOLAR will be showcasing the IBC TopFix 200 Eco trapezoidal system at its booth in Hall B2/150.

Pune’s Enrich Energy Bags Prestigious Global Green Award Enrich Energy Private Limited (EEPL) has become the first Indian solar power company to win the prestigious Global Green Award, which was presented to 52 different companies worldwide in various categories recently. The Pune-based company bagged the award amidst stiff global competition from over 75 countries across five continents. Mr Ankit Kanchal, Director, Enrich Energy Pvt. Ltd. received the award – comprising a certificate and trophy -- from Charbel S Tabet, President, Association Otherways Management and Consulting (France) at the awards function in Berlin. >Attributing the award win to his company’s pioneering moves in the solar industry by offering solar projects on turnkey concept, he said “We bagged this award for being pioneer in the Solar Industry by offering solar power projects on turnkey basis and developing private solar power parks, which involved setting up related infrastructure alongside getting the required permissions in the shortest time period. Also, we are the fi rst in the Indian solar industry to provide a unique solution which helps even retail investors to set up their solar power projects with

EQ May 2014

smallest MW capacity.” Elaborating on the project, he said “Our pioneering project is the country’s first private solar power park of 40 MW in Solapur, Maharashtra spread over a total of 200 acres are. The company is also pioneer in Maharashtra to commission the projec t un d er REC mechanism.” The Global Green Award, which was constituted in 2014 by “Association Otherways Management & Consulting” (France), is given for outstanding environmental achievements and contributions in areas of Innovation, Quality

& Technology, and sustainable practices. The Award Forum had firms, governmental institutions, renewable energy firms, environmental agencies and others from over 75 countries to cover all “Green Topics” and grant the Award to companies with outstanding environmental achievements and sustainable practices worldwide. The selection criteria included periodical reports by Indian and global marketing, research & consulting firms, polls and voting process through mail, Internet or within awarded companies, besides information from media,

advertising agencies, trade fairs and exhibits, chambers of commerce, embassies, polls including the Online Macro Poll, which is analyzed by “The Global Green Award” Selection committee before deciding the final winner.Photo caption: Charbel S Tabet (left), President, Association Otherways Management and Consulting (France), presenting the “Global Green Award” certifi cate to Ankit Kanchal, Director, Enrich Energy Pvt. Ltd. at the awards function in Berlin.

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& EQBusiness Financial BHEL Signs MoU For Setting Up Renewable Energy Projects In Yemen In a step towards further consolidation of its position as the fl agship Indian power equipment company in the overseas market, Maharatna Bharat Heavy Electricals Limited (BHEL) has signed a Memorandum of Understanding (MoU) with the Ministry of Electricity and Energy, Republic of Yemen for setting up Solar

Photovoltaic (PV) based power

of Yemen, in the presence of

plants at different locations in

H.E. Mrs. Khadija Radman, the

Yemen.

Ambassador of Yemen in India,

The MoU was signed in a ceremony in New Delhi by Mr. B. Prasada Rao, Chairman & Managing Director, BHEL and H.E. Saleh Hassan Sumie, the Honourable Minister of Electricity & Energy, Republic

Mr. W.V.K. Krishna Shankar, Director (Industrial Systems & Products), BHEL and officials of the Ministry of Electricity & Energy, Republic of Yemen and BHEL.

a 400 MW Gas Turbine based power plant, Marib PhaseII, in Yemen. Setting up Solar PV plants in Yemen is a step in reinforcing BHEL’s commitment to providing green power solutions in particular and the Yemeni Power Sector in general.

BHEL is presently executing

China Hits EU With Final Duties On Polysilicon China imposed anti-dumping and anti-subsidy duties on imports of polysilicon from the European Union, the Commerce Ministry said on Wednesday, the latest move in a long-standing dispute over solar materials. Solar panels were at the centre of a trade row last year after the European Union decided to impose anti-dumping duties on panels made in China. Polysilicon is a raw material used in the manufacture of solar panels. The ministry had extended its investigation into European polysilicon by six months late last year, citing “complicated circumstances”, but imposed duties on South Korean and the U.S. polysilicon in January to protect its domestic solar producers.

Beginning on May 1 and lasting two years, anti-dumping duties of 42 percent will apply to German, Italian and Spanish companies, including Schmid Group, Joint Solar Silicon, MEMC Electronic Materials SpA and Siliken Spain, the ministry said in a statement on its website. The companies would also be subject to 1.2 percent anti-subsidy duties, it said. The ministry said it has spared one company, Wacker Chemie AG, from duties because of the firm’s “price commitments”. “If there is a violation of this price commitment or other termination of the price commitment, then anti-dumping duties will be levied according to the final ruling,” the ministry said. Relations between China and

the European Union had soured over the solar industry disputes. They have also been involved in disputes involving other industries, including wine. The European Commission, the EU’s executive body, had accused China of dumping billions of euros worth of solar panels in Europe below production costs. It had planned to impose heavy tariffs on Chinese solar panels but a majority of EU governments - led by Germany and wary of offending China and losing business - opposed the plan and sealed a compromise deal in July. Despite the resolution of that solar panels dispute, China pressed ahead with its investigation into European wine exports, saying it was a separate issue despite European

expectations that the inquiry would also be dropped. China and the EU reached a deal in the wine case days before China’s President Xi Jinping travelled to Europe in March, but trade woes between the two, from the solar industry to telecoms, persist. Reuters reported in April that the EU has cleared the imposition of hefty duties on Chinese imports of glass used in solar panels, saying it gets illegal subsidies and is sold at unfairly low prices that threaten European manufacturers. A majority of the EU’s 28 members backed the proposed duties, ranging from 17.1 percent to 42.1 percent, according to EU sources. (Editing by Robert Birsel)

Panel Established On US-India dispute Over Solar Energy The Dispute Settlement Body, on 23 May 2014, established a panel to examine a complaint by the United States regarding India’s domestic content requirements under its solar energy programme. Brazil, Canada, China, the European Union, Japan, Korea, Malaysia, Norway, Russian Federation and Turkey reserved their third-party right to participate in the panel’s proceedings. 12

EQ May 2014

DS456: India — Certain Measures Relating to Solar Cells and Solar Modules The United States reiterated its concern about India’s domestic content requirements under its solar energy programme known as the National Solar Mission (NSM). The US emphasized that it was not challenging India’s NSM Programme on the basis that it promotes solar power

generation. Rather, the US was challenging the domestic content requirements in India’s measures that discriminate against imported solar cells and modules in favour of “like” domestic products. The US, for the second time, requested the Dispute Settlement Body (DSB) to establish a panel to examine the matter set out in its panel request. The panel was established. Brazil,

Canada, China, the European Union, Japan, Korea, Malaysia, Norway, the Russian Federation and Turkey reserved their thirdparty right to participate in the panel’s proceedings.

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& EQBusiness Financial Maharashtra Cabinet Approves Rs 2,731-Crore BHEL project In Bhandara In a move which will encourage medium scale industries in backward regions of Vidarbha, the Maharashtra cabinet today approved the Rs 2,731-crore BHELBSE 2.49 % project in Bhandara district to produce solar photo voltaic cells providing employment to 3,000 people. The company will produce 240 mw solar photo voltaic cells and 100 mw photo voltaic modules at its plant in Sakoli in Bhandara district. This will be the Central government’s first project in Vidarbha and it can avail

subsidies from the National Clean Energy Fund (NCEF). MIDC has provided 480 acre land to BHEL for the project. The BHEL proposal, as a “mega project” was first sanctioned in January 2012 by the highpowered committee comprising chief secretary, ACS (planning) and ACS (Finance) , on condition that it will utilise the capital expenditure in five years, repay 20 per cent of the VAT in 15 years, electricity duty waiver for 15 years and complete stamp duty waiver. Union Minister for Heavy

industries Praful Patel, who is also the MP from Bhandara, wrote to the state government that more perks were necessary to make the project financially viable. However, the high-powered committee refused to grant any more concessions. In the meantime, Deputy Chief Minister Ajit Pawar asked the high powered committee to place the proposal before the Cabinet. In August 2013, BHEL increased its project cost from Rs 2,000 crore to Rs 2,450 crore and

sought more concessions and also promised more employment opportunities. The Cabinet sub committee proposed electricity concessions of Rs 5.61 per unit, a product purchase guarantee and equity share capital of Rs 680 crore to the project. However, the high powered committee on May three refused the concession of equity share but said the government will given only financial assistance from the national clean energy fund. Source:ET

Waaree Energies Limited Bags 17 MW Solar EPC Orde Construction major Sharda Construction and Corporation Pvt Ltd (SCACPL) has signed up India?s leading solar power solutions company Waaree Energies Limited to build 17 MW solar power plant on complete turnkey solution terms.The above project is a part of a Letter of Intent (LOI) signed between the two companies to continuously

explore the possibility of setting up solar power plants in the country. SCACPL is a leading Government registered class 1 contractor based in Nanded, Maharashtra, which won an allotment of 10 MW project in Maharashtra in the DCR category of Jawaharlal Nehru National Solar Mission?s Phase 2 and

the 7 MW project in Karnataka by Karnataka Renewable Energy Development Limited (KREDL). According to the terms of LOI, Waaree Energies Limited will be responsible for Engineering Procurement & Commissioning (EPC) of 10 MW solar photovoltaic plant in the State of Maharashtra and 7 MW plant in the State of Karnataka.

This order is a testimony to our corporate values of putting our customers first, commitment to quality and integrity which we have strived for since inception,? said Hitesh Doshi, Chairman and Managing Director of Waaree Group.

Haldiram’s Bhujia To Be Made With Solar Power Now India’s leading solar solutions and products company Waaree Energies Limited has successfully synchronised the solar photovoltaic power plant of 1.5 MW Capacity at Gumthala, Nagpur in the factory premises of M/s Haldiram Foods International Pvt Ltd.

fed to factory for internal consumption.

The captive solar power plant generated a record 9,200 units of electricity on the first day of its commissioning itself. This is the first-of-its-kind solar power project commissioned by Waaree in the Vidharbha region of Maharashtra. The power generated is directly

Haldirams’ chairman Mr Shivkishan Agrawal, in a press statement, said that the group was committed to increasing its dependence on green power, as part of their strategy to adopt and pursue best practices. “We will continuously ensure that our entire value chain is

EQ May 2014

This installation helps Haldiram Foods to continue with its good practice of providing quality foods using the best resources, including renewable energy that reduces is carbon footprint in the country.

geared towards improving our customers’ experience with our food products,” he added. Waaree’s chairman Hitesh Doshi said that the project opens up the large industrial and commercial market in the region. “We hope to be to leaders in the region in providing green and dependable energy to large environmentconscious users,” he said.

for those who want to reduce dependency on the grid for their electricity requirement and want to embrace this green form of energy.

Most power plants in Vidarbha region use coal which causes a lot of air pollution. Transmission losses accounts for around seven to eight per cent of the power generated. This project would act as a proof of concept

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& EQBusiness Financial Ind-Ra: Debt Structure And Amortisation Profile To Determine Debt-Worthiness Of Solar Power Projects Ind-Ra believes that the Viability Gap Funding (VGF) model for the batch I, phase II of the Jawaharlal Nehru National Solar Mission is prima-facie viable but needs the support of financial engineering techniques to enable timely debt service on these projects. The equipment costs, debt structure and the size of the viability gap funding (VGF) will drive the credit quality of these projects. Ind-Ra, in its analysis has concluded that the projects under this batch would need a

minimum VGF grant of 16% of the project costs (under certain set of assumptions) with an annual declared capacity utilization factor (CUF) of 19% to be able to achieve timely debt service. The optimum debt/equity mix is 69:31 to achieve a break-even debt service coverage ratio of 1.0x. VGF grants below 16% of project costs could be stressed to meet timely debt service. Besides the construction timeline, the projects would require an amortization period of around 13 years, taking into

account the seasonal variations involved in solar projects. Seasonal variations in CUF must form a part of the capital structure analysis in order to achieve success in these models. The tariff of INR5.45/kwh would add to stress unless backed by sizable VGF. Ind-Ra determines the minimal breakeven tariff (which would just about enable it to service debt) to be INR6.50/ kwh, in the absence of VGF.

(SECI) payment track record. Government ownership and its strong linkages with the government help mitigate revenue-counterparty risks. Ind-Ra’s full report “Financially Engineering the Solar Projects to Shine” offers detailed insight into structuring these projects.

The success of these projects would depend upon the Solar Energy Corporation of India’s

Hindustan Cleanenergy Signs 30 MW and 20 MW PPAs For Solar Projects In Punjab And Uttar Pradesh Respectively With an installed capacity of ~ 350 MW generating carbon savings of approx 500000 tonnes per year, Hindustan Cleanenergy is the largest solar farm developer in the country The clean energy arm of Hindustan Powerprojects has been awarded three prestigious projects for developing solar farms in the states of Punjab and U.P. Hindustan Cleanenergy Limited, the largest developer of renewable energy in the country has executed its power purchase agreement (PPA) for two solar projects of 15MW each with the Punjab government and the third one 20MW solar project with

the Uttar Pradesh government. The projects were won by the company through a competitive bid and are expected to go on stream during the current year itself. The company’s strong track record in commissioning solar farms with high level of energy generation indicates sound commercial viability of solar projects in the country. These projects will help both Punjab and Uttar Pradesh with their initiatives to accelerate the pace of overall development in the states there by making way for focus on renewable sector. Speaking on the expansion of solar projects, Mr. Ratul

Puri, Chairman, Hindustan Powerprojects said, “The solar farms in Punjab will generate around ~46 million units per annum of clean energy, eliminating around 45,000 tonnes of carbon dioxide emissions. The one in Uttar Pradesh will be instrumental in generating ~32 million units per annum of clean energy, eliminating around 30K tonnes carbon dioxide emissions every year. The company would invest INR 400 crores towards commissioning of the projects and more importantly, we will be the first Indian solar developer to have installed over 500 MW of solar farms in next few quarters.

Our focus has been on developing mid-large scale solar farms as they are sound investments for all stakeholders. In a short span, we have invested approx INR 5,500 crores in developing solar farms which showcases our intentions in growing solar sector.”

EU Imposes Final Duties On Solar Glass Imports From China The European Commission has imposed definitive antidumping and anti-subsidy duties on solar glass imported from China after concluding that Chinese solar glass producers have been dumping their products on the EU market. The Commission has 16

EQ May 2014

imposed final antidumping duties of up to 36.1% for Chinese solar glass manufactures. Anti-subsidy duties will range from 3.2% to 17.1%. The duties will come into force starting from today. The Commission launched the

antidumping investigation in February 2013 and the antisubsidy investigation in March 2013 at the request of European producers’ association EU Pro SunGlass. The Commission estimates that the EU solar glass

market is valued at less than €200 million ($262 million). In mid-April, EU member states approved the decision of the European Commission to impose provisional duties on solar glass imported from China.

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& EQBusiness Financial Accenture To Help Azure Power Expand Its Solar Generation Business Accenture has been selected by Azure Power, India’s leading independent solar power producer, to implement an SAP® enterprise resource planning (ERP) solution to support and drive growth in its solar generation business. As part of the agreement, Accenture will provide implementation services in support of the SAP solution to Azure Power to help strengthen its business processes and improve planning, budgeting,

forecasting, supply chain and revenue projections. The new solution will help the company scale its rapidly expanding solar footprint across India and will enable more effective management of complex business transactions. “We are leading the solar revolution in India by bringing the cost of solar energy from INR 17.97/KWhr in 2010 to INR 5.45/KWhr in 2014 and are working with the Government

and all stakeholders to reach grid parity by 2017,” said Inderpreet Wadhwa, CEO of Azure Power Ltd. “While we are growing at a very fast pace, it is essential for us to have our core business processes automated with adequate controls in place and we are excited to start our relationship with Accenture to manage our growth better.” Sandeep Dutta, managing director in Accenture’s Resources operating group in India, said,

“We are seeing an increasing number of independent providers entering the market to take advantage of the opportunity offered by solar but it is critical that these companies have the right business framework in place to support the fast pace of growth in this sector. We look forward to working with Azure Power to implement integrated and agile business processes that can help it outperform the competition and deliver on its expansion strategy.

Katare Spinning Mills To Start 1mw Solar Power Project Katare Spinning Mills has informed that shortly the company will be commissioning a 1mw solar power project with tracking system for captive consumption.

Katare Spinning Mills Ltd has informed BSE that shortly the company will be commissioning a 1mw solar power project with tracking system for captive consumption. Annually it will

generate about 19 lakh units of electricity which will result in saving of Rs. 8 per unit for the company. It will be one unique combination to reduce the cost of production substantially and

such type of experiment is for the bright future of textile industry and it is expected to set new benchmark in the industry. Source : BSE

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& EQBusiness Financial Power-One Renewable Energy Business To Transition To The ABB Brand Name ABB, the leading power and automation technology group, announced recently that the Power-One Renewable Energy Business will transition to the ABB brand in May 2014 as part of the planned integration of its Power-One acquisition. As a result, the ABB brand will represent the most comprehensive solar value proposition on the market today and one of the industry’s broadest inverter product portfolios.ABB acquired Power-One, the world’s second largest manufacturer of photovoltaic inverters, in July 2013. The entire current PowerOne Renewable Energy product

offering, including all its product names, such as UNO, TRIO and ULTRA, will remain intact under the ABB brand, and all of its product certifications in all countries will remain valid. In addition to maintaining its current solar offering, ABB will continue developing stateof-the art inverter, monitoring and integrated energy storage solutions to fulfill the growing global demand for solar solutions.“By transitioning Power-One’s Renewable Energy business to the ABB brand, we will be able to take full advantage of the combination of these two companies. We will have one of

the most comprehensive solar inverter offerings under one brand, meeting customers’ needs across all key segments – utility, commercial and residential,” said Pekka Tiitinen, head of ABB’s Discrete Automation and Motion division.“Solar is an important and rapidly growing part of our global energy mix, and ABB remains confident about the continued importance of this segment,” said Otto Preiss, head of ABB’s Power Conversion business unit. “ABB’s position in solar is built on a combination of leading technologies, customer intimacy, and a unique knowledge of

local grids. By transitioning the Power-One Renewable Energy business under the ABB brand, it will allow us to focus on and invest in one strong and powerful brand around the world.” Alex Levran, Manager Product Group Solar in ABB’s Power Conversion business unit, added “Combining our shared passion for technology with ABB’s fi nancial stability and global reach is going to create a great growth story. And ABB’s reputation for quality and service will ensure that our customers continue receiving world class care.”

Welspun Renewables Commissions One of Karnataka’s Largest 19 MW (DC) Solar Capacity Welspun Renewables Energy Private Limited (WREPL), India’s leading renewable energy generator commissions one of Karanataka state’s largest 19 MW (DC) solar capacity. Based in Chitradurga district the project was awarded as twin solar projects of 8 MW (DC) and 11 MW (DC). The 8 MW (DC) capacity was commissioned last year - four months in advance, while the balance 11 MW (DC) capacity has now been developed in less than three months and consequently 10 months ahead of schedule. An achievement, as most developers who had won projects in Karnataka Phase 1 solar bids are yet to commission theirs. While, in the 2nd phase of bids, out of 13 developers to whom the state had issued an LOI WREPL’s 11 MW (DC) project is first to be commissioned! Speaking on the occasion Mr. Vineet Mittal, Vice Chairman, Welspun Renewables Energy Pvt. Ltd. said “We are committed 18

EQ May 2014

to Karnataka’s energy security targets. As with our projects before, we have commissioned our 19 MW (DC) capacity much ahead of scheduled date; thereby fulfilling on our commitment to deliver environment friendly & efficient energy in the shortest possible time into the stare grids. The project is already touching high performance standard (CUF%) of 27%.” Karnataka is an energy deficit state and has been reeling under power cuts constantly. With this project in Chitradurga - for the next 25 years, the project will be annually feeding 30,724 units of clean emission free energy into the state grid. This is equivalent to powering 48,000 homes and mitigating 23,043 tones of CO2 emissions.The tracking system deployed at the site would track the path of the sun from

morning till evening. This system is expected to give a significant boost to power generation percentage in comparison to the fixed tilt system.The solar installation has been developed by Welspun Renewables Energy’s step down subsidiary Welspun Solar Kannada Pvt. Ltd. under the Karnataka Solar policy 2011-16. As per the PPA signed with Mangalore Electric Supply Company (MESCOM), the power plant was scheduled to begin commercial operations

only by March 2014. 11 MW (DC) was to be commissioned before 20-Jan-2015. Welspun Energy has so far built up more than 600 MW solar & wind energy capacity on-ground and of this 328 MW (DC) is already operational. The organization envisions developing power projects pan India, with existing projects located in high radiation zones like Gujarat, Rajasthan, Madhya Pradesh, Maharashtra, Andhra Pradesh, Tamil Nadu and Punjab.

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& EQBusiness Financial TBEA SunOasis Set To Overtake First Solar as World’s Largest Solar EPC Company In 2014 U.S.-based First Solar delivered on expectations in 2013 to become the leading Engineering, Procurement and Construction (EPC) company in the global photovoltaic (PV) industry, even though it is likely to be surpassed in 2014 by Chinese EPC TBEA SunOasis, according to a new report from IHS Technology (NYSE: IHS).

1-GW pipelines each in Latin America and the Middle East. “After 2015, depending on the evolution of solar support in the United States, First Solar risks slower growth in PV system integration,” Berg noted. “And while the development pipeline in emerging countries has given the company a good start, it will be much more challenging

equipment provider opens up possibilities for EPC contracts in new PV markets,” Berg remarked. “But because the Chinese domestic market will grow by 31 percent this year, TBEA is also set to keep its systems business growth focused on China.” Table 1 presents the IHS global ranking of solar system

IHS can spot those countries where PV deployment can take off quickly given the right conditions.” With 34 GW of announced projects in planning and 5 GW under construction, North America boasts the largest PV pipeline. This is due to both the large number of projects involved and the size of the projects

First Solar installed a total of 1.1 gigawatts of solar capacity last year, up from 516 megawatts (MW). In comparison, runnerup TBEA SunOasis installed 1.0 GW, up from 250 MW, as shown in the attached table. But with SunOasis projected to attain1.5 GW of installations this year compared to First Solar’s 1.3 GW, TBEA SunOasis has the potential to sail to the top among global PV integrators. These findings are contained in the report, “IHS PV EPC and Project Market Tracker,” from the Power & Energy service of IHS. “After a strong year of installing 22 percent of the non-residential PV capacity in the U.S. and Canada, First Solar remains focused on North America,” said Josefin Berg, senior analyst for solar demand at IHS. “Largescale projects in the U.S. will make up around 93 percent of the 1.3 GW worth of additions in 2014.” These projects, Berg said, were acquired in early-stage development and are now being constructed and sold primarily under U.S. investment tax-credit policies. To mitigate the risks that arise from dependence on one market, First Solar is building up a global project pipeline through acquisitions and joint ventures, with the company now also claiming

to pursue than home-based projects in the U.S.” Meanwhile, TBEA SunOasis is thriving on China’s rapidly growing domestic market, and its installations of 1.0 GW in 2013 accounted for 10 percent of that country’s non-residential PV additions. This year, the power equipment manufacturing group will continue growing its PV systems business, with expected additions to reach as high as 1.5 GW. While focusing on utility-scale opportunities in China, TBEA is also involved in power projects in markets such as Pakistan, where it is undertaking the construction of a 100-MW PV plant in 2014 and 2015. “TBEA’s global reach as a power

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integrators. Global PV project pipeline at 140 GW and growing The IHS Global PV Project Database, which consists of nearly 30,000 projects, shows that the global PV pipeline has now reached 140 GW, up 5 GW since February 2014. Of the 140 GW in the pipeline, 21 GW are either under construction or have signed power purchase agreements (PPA), with the remaining projects at various levels of planning. “It is obvious that a large chunk of these pipeline projects will never be built,” Berg said. “Developers have to compete for PPAs, grid access, permits, and not least—financing. What is important, however, is that

proposed. The average size of the projects in the database equates to more than 25 MW, with over 80 projects that are 100 MW or larger in development. Latin America, meanwhile, has the largest pipeline of PV projects in comparison to its installed capacity, with nearly 15 GW of projects in development. This includes a pipeline of more than 4 GW in Brazil and 7.5 GW in Chile. The IHS Global PV Project Dat ab a se also currently includes more than 29,000 non-residential PV projects across the world totalling 175 GW. The projects cover those that are in development, are under construction or have been completed.

May 2014

& EQBusiness Financial Tata Power Solar Modules Certified PID Free By UL Tata Power Solar, one of the largest solar manufacturers in India, recently announced that its crystalline PV modules have successfully passed the Potential Induced Degradation (PID) test conducted by Underwriters Laboratories (UL), a premier global independent safety science company. UL, the world leader in product safety testing and certification, subjected Tata Power Solar’s PV modules to some of the harshest PID-test conditions in the industry:

Temperature of 85 ± 5°C

Tata Power Solar said, “As one

Negative voltage of 1000 Volts

of the oldest solar manufacturers

Relative humidity of 85%

more than 500MW of modules

Test period of 96 hours Results showed less than 1% degradation in the modules, while the accepted level is between 4 and 5%. The strong performance of Tata Power Solar’s modules under such extreme conditions showcases the superior quality and reliability of its products.Commenting on the certification, Ajay Goel, CEO,

in the world, we have exported world-wide over last 25 years. This latest PID-free certification from UL is a testament to our commitment to producing high-

module safety and screen for PID susceptibility. Tata Power Solar’s modules have produced excellent results proving that they are not susceptible to PID thereby classifying them as among the best in the solar industry.”

quality solar modules that set the standard as best in the world.” Suresh Sugavanam, Managing Director, UL India said, “Our test program evaluates the modules’ performance against system voltage stress, verify

Rays Power Infra Signs Up Rooftop Solar Project At 15 Govt Schools In Chandigarh From CREST Rays Power Infra Pvt Ltd a ISO 9001:2008 & 14001:2004 certified solar park company has signed a contract to set up a total capacity of 475 KWP SPV power project at 15 government schools in Chandigarh under the aegis of Chandigarh Renewable Energy, Science Technology Promotion Society (CREST), taking the company’s solar portfolio to more than 45MW . This project will give financial advantage to all schools by switching from conventional electricity to solar saving them significant amount

on electricity bills. The savings will allow the schools to redirect their other precious academic priorities and needs. In addition to the financial benefits in solar project for the schools, it can also serve as a valuable tool for providing staff, students and the community with the opportunity to see renewable energy at work, first hand. In addition, it will also help them evaluate and comprehend solar energy and its predominant utility in the world.

Speaking on the occasion Project Director Rravindra Singh Director CREST said “The projects will also provide an opportunity for the students to realize the value of Mother Nature and its infinite resource. This in turn, might inspire them to determine their future professions to save mother earth from the clutches of the global warming.

schools, hotels, commercial buildings and universities across India.Expressing his views on the association Ketan Mehta Director Rays Power Infra said “We are delighted to sign up the project with CREST to provide clean, reliable solar power to schools in a cost effective manner, and also anticipating breaking grounds and completing our first school based solar project in the state of Punjab.”

This project will give an edge to the company to set up many more solar power projects at various

AEG Power Solutions Sells its Indian Facility of Bangalore to Toshiba Mitsubishi-Electric Industrial Systems Corporation (TMEIC) AEG Power Solutions a global provider of power electronics systems and solutions for industrial power supplies and renewable energy applications, today announced that it has sold its Indian subsidiary, AEG Power Solutions India PV T Ltd., to TOSHIBA MI T SUBISHI - ELEC TR IC INDUSTR I AL

SYSTEMS

C O R P O R AT IO N( T ME IC), based in Tokyo, Japan, who is expanding its activities on the 20

EQ May 2014

Indian domestic market. AEG PS’s Indian facility is mainly focused on solar inverters manufacturing for the Indian market. The state of the art 80,000 sq. ft. production site in Bangalore has a capacity to manufacture products generating 400 MW per year. The business sold involves both manufacturing and sales and represents annual revenues of €12.39 million and 85 employees. This sale is part of AEG PS’s

ongoing restructuring efforts and concentration on its core areas of competitive strength. “The AEG PS Group is continuing to concentrate its scope and efforts on its core businesses and markets. This divesture is a signifi cant milestone in the ongoing reorganization process

and expertise as well as give a long and prosperous future for the highly talented Indian colleagues. TMEIC will offer our Indian facility the volume and depth to continue their growth and development”, said Jeffrey Casper, CRO and member of the Board of Directors.

of AEG Power Solutions. We are delighted to have a partner that will continue to provide to our customers an equally high standard of capability

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& EQBusiness Financial IREDA And AFD Sign Euro 100 Million Agreement The Agence Francaise de Developpement (AFD) is extending a Line of Credit (LoC) of Euro 100 million to M/s Indian Renewable Energy Development Agency Ltd. (IREDA) to be utilized for financing Renewable Energy and Energy Efficiency projects in India. The said Line of Credit is being extended for a tenure of 15 years and without any guarantee from Government of India.

Agreement for availing the LoC of Euro 100 million from AFD, was signed by Shri K S Popli, Chairman and Managing Director, IREDA and Mrs Aude Flogny - Director of AFDâ&#x20AC;&#x2122;s Regional Office in New Delhi in the presence of Senior officials of MNRE & IREDA. Developing renewable energy sources helps address environmental concerns and also improves energy security

and spurs regional economic development. The agreement signed today will help in supporting the Government of Indiaâ&#x20AC;&#x2122;s focus on a low carbon growth strategy for power generation in India. IREDA is a dedicated financing institution for financing RE projects under the aegis of Ministry of New and Renewable Energy (MNRE). It has till date disbursed more than Rs 14,550

crores for RE projects and has total loan portfolio of over Rs. 8200 crores. IREDA has been raising resources from various bilateral / multilateral agencies as also from domestic sources through both taxable and taxfree bonds for providing long term finance on competitive terms and conditions.

CERC Grants Inter-State Trading Licence To Seci Solar Energy Corporation of India (SECI) was formed by Government of India (GoI) to act as nodal agency both for implementation and promotion of JNNSM. SECI recently finalized the JNNSM Phase II (Batch I) 750 MW capacity under VGF scheme. SECI is also

in the process of implementing Ultra-Mega Solar Power Projects, Solar Parks, other upcoming schemes of JNNSM Phase-II besides large scale grid-connected roof top projects in India. In order to capitalize on the

prospects opened by above initiatives, SECI had earlier filed application before CERC for grant of inter-state trading licence under Category III, allowing them to trade about 500 MUs per annum. CERC granted the trading licence to

SECI on 1st April, 2014. The trading license will enable SECI to purchase power from Solar Power Developers (SPD) for resale to DISCOMs on long term basis. SECI may also engage in short-term trade of power.

& EQBusiness Financial NTPC’s 50 MW Solar Power Plant At Rajgarh Fully Operational NTPC said its 50 MW solar plant at Raigarh in Chhattisgarh is now fully operational. “With commencement of commercial operations of 20 MW solar unit today, the capacity of Rajgarh solar photo-voltaic (PV) plant has become 50 MW,” NTPC said in a statement. With this, the state-owned company’s total capacity of non-conventional

energy projects has reached 95 MW. NTPC is the largest power producer in the country, with an installed capacity of 43,039 MW. Its 16 coal-based and seven gas-based plants, seven solar renewable and seven joint venture power stations contribute about 28 percent of the country’s electricity supplies. Shares of NTPC closed at Rs

116.25 on the BSE, down 1.23 percent. NTPC stock price On February 17, 2014, NTPC closed at Rs 132.85, up Rs 0.65, or 0.49 percent. The 52-week high of the share was Rs 162.80 and the 52-week low was Rs 122.65. The company’s trailing 12-month (TTM) EPS was at

Rs 13.31 per share as per the quarter ended March 2014. The stock’s price-to-earnings (P/E) ratio was 9.98. The latest book value of the company is Rs 110.80 per share. At current value, the price-to-book value of the company is 1.20.

Elcomponics Technologies & The Meeco Group Agree To Form A Joint Venture For Manufacturing Of Sun2safe In India Elcomponics Technologies India Private Limited and meeco India Private Limited, the Indian subsidiary of the meeco Group, have decided to join hands for customization, manufacturing and marketing of sun2safe, meeco’s High Efficiency Solar Energy Power Conditioning and Management System. The sun2safe technology has delivered a strong performance in the Telecom and Off or Weak Grid Power needs. Mr. S.N.Dwivedi Managing, Director of Elcomponics, said: “We are very excited about this

new venture as this would be one of the first high efficiency large scale Solar Power Conditioning unit to be manufactured in India. We have set up a world class infrastructure where our R&D team will enhance the features and optimize the product for grid variations.”

have created a regional hub and center of excellence in India. In Elcomponics we have found a partner where quality is in the ethos of everything they do and we see this very much as a strategic relationship which will bring many value added products for us.”

The meeco Group has expanded its operations in India and the Asia Pacific region. Explaining the partnership, Mr. Dieter Trutschler said “We are expanding rapidly in the Asia Pacifi c region and Africa. To support this expansion, we

The first sets of units to be rolled out of the production of Elcomponics are expected in June 2014. Mr. Tarun Munjal, Managing Director of meeco India, added “We have prepared ourselves to address the scope and size of the market which

we are addressing including Telecom BTS power, Street Lights, Off Grid, rural and Hybrid Power Backup solutions with large and seamless clean power requirement. We have a backlog of pre-orders and are experiencing a huge demand in these segments.”

Tata Power Solar Expands Manufacturing Capacity By 60% Tata Power Solar, one of the pioneering solar manufacturers in the world and India’s largest specialised EPC player, today announced a 60% expansion of its manufacturing facility in Bangalore, taking the total production capacity to 200 MW. The expansion is based on the signifi cant increase in demand that the company has seen for its solar modules, as well as the expected increase in demand due to supportive policy steps announced recently by the Government of India such as Domestic Content Requirement and anti-dumping duties. Tata Power Solar, erstwhile 22

EQ May 2014

known as Tata BP Solar, is one of the few companies globally to have a long operating history of 25 years. This is a strong proof point for the company’s ability to honour the 25 year warranty that solar modules come with. It is also the only company in India whose modules are rated as Tier 1 in Bankability by GTM Research, a globally recognized PV market research firm. The expansion comes against the backdrop of extremely difficult times for the Indian solar industry. Despite challenges, Tata Power Solar has seen an increase in demand for its products which reaffirms the faith customers put in the

quality of its products. Commenting at the inauguration of the expanded facility, Ajay Goel, CEO, Tata Power Solar said, “This substantial expansion, in an extremely competitive and price-sensitive sector, is a testimony to our products’ superior quality and global competitiveness. Our 25 years of strong credentials in providing high quality solar products, which also corresponds to the warranty period of our modules, adds credibility to our offerings.”Rahul Budhwar, Vice President - Manufacturing and Business Development, Tata Power Solar said, “We

are excited to be expanding our production capacity to meet the increased demand for our products. We continue to raise the bar for quality solar products, by employing cutting-edge equipment, such as the fastest stringers available globally as well as the latest electroluminescence testers.” Tata Power Solar initiated its manufacturing expansion in 2001 by laying the foundation stone on a 10 acre facility at Bangalore. Currently, the company operates three world-class manufacturing units in Bangalore, including module, cell and solar water heaters.

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& EQBusiness Financial MNRE: MoU for Tapping Solar Energy at AAI Airports As a part of the series of efforts of Airports Authority of India (AAI) in tapping alternative sources of energy, the organization is going to establish solar power plants at its airports to meet not only its own requirements but also to feed the surplus power generated to the local grid. An MoU between AAI and Solar Energy Corporation of India (SECI) was signed today in the presence of Shri Ashok Lavasa, Secretary, Civil Aviation , Shri Alok Sinha, Joint Secretary, MoCA & Chairman, AAI and Shri Rajendra Nimje, MD, SECI for the establishment of solar power plants at AAI

Airports. The MoU was signed by Shri Sudhir Raheja, Member (Planning), AAI and Shri Rakesh Kumar Director, SECI from Solar Energy Corporation (SECI) at Rajiv Gandhi Bhawan, Safdarjung Airport, New Delhi. On this occasion, Shri Ashok Lavasa, Secretary, Civil Aviation, highlighted the importance of tapping solar energy through various outlet s including storage of power generated in rechargeable batteries. He also emphasized to use the full potential including roof top surfaces as large areas are

available at airports. He stated that utilization of stored energy in an efficient and effective manner is very important and as such AAI shall identify the outlets where the tapped energy can be channelized including other applications of renewable energy for various establishments at airports. He said that projects shall be accomplished in a time bound manner and the airportwise specific timelines shall be worked out and followed up for effective implementation. AAIâ&#x20AC;&#x2122;s plan includes installation of 50 MW capacity plants (cumulative capacity in Phase

I) which will be enhanced to 150 MW(cumulative) over a period of time. The plants will be installed on surplus land available with AAI and at large roof tops of AAIâ&#x20AC;&#x2122;s structures. In all about 30 Airports have been identified by AAI for establishment of solar power plants. Setting up of solar plants will not only achieve significant savings in power bills over a period of time but also result in relief in significant saving in carbon emissions apart from making airports self sustainable so far as energy requirement is concerned.

NHPC Signs Agreement With Kerala Govt To Develop Solar Power Projects NHPC Ltd has informed BSE that an agreement was signed between NHPC Limited and Kerala St ate Elec tricity

Board on May 08, 2014 at Thiruvanthapuram for the development of Solar Power Projects in the state of Kerala.

As per this agreement NHPC shall in the first phase take up implementation of 50 MW grid linked solar power project

at West Kallada Panchayat in Kollam District. Source : BSE

& EQBusiness Financial Solving India’s Renewable Energy Financing Challenge: Instruments to Provide Lowcost, Long-term Debt The government of India plans to more than double the renewable energy capacity installed in the country from 25 GW in 2012 to 55 GW by 2017. However, renewable energy is still approximately 52-129% more expensive than conventional power (CPI, 2014b). In our previous work (CPI, 2012), we found that the biggest barrier to renewable energy in India is the inferior terms of debt – i.e., high cost, short tenor, and variable rate – which raises the cost of renewable energy in India by 24-32% compared with similar projects in the US.

instrument, we also considered (4) potential to mobilize private capital, (5) potential to attract foreign investments; and (6) feasibility of implementation. The figure below presents our results.

While a number of fi nancing instruments that have been used elsewhere could contribute to solving the main problems in financing renewables in India, none are currently available. In this paper, we explore financing instruments, used in other regions as well as those that were recently introduced in India in other contexts that have the potential to provide and/or facilitate low-cost, long-term debt for renewable energy in India.

* The baseline cost is 12.8%, which is the average annual return of an “A” rated bond. + Actual cost reduction depends on the structure of the guarantee ~ We assume the developer avails an interest rate swap for foreign debt # Based on baseline foreign debt cost

We explored three categories of instruments used to finance renewable energy around the world: (a) instruments that provide access to previously untapped lowcost, long-term funds from domestic capital markets; (b) instruments that provide access to foreign debt; and (c) guarantee instruments that mitigate the risk associated with projects. We then further analyzed five instruments for: (1) their cost reduction potential, (2) their potential to increase tenor of funds, and (3) whether they provide fixed interest rates. For each 24

EQ May 2014

Source: CPI Analysis

of 13%

Since each of these instruments represents a different kind of debt, we estimated the reduction in cost of debt for each instrument based on the typical baseline cost applicable for that particular instrument. The potential benefits from each of the instruments are as follows: Government bonds: A direct government borrowing and lending program, compared with a typical domestic loan that is available at 12.3% for 10 years, would reduce the cost of debt by up to 4.5 percentage points and increase tenor by up to 10 years, ultimately decreasing the delivered cost of renewable energy by approximately 25%. However, a direct government borrowing and lending program may crowd out private financing if not designed carefully. Infrastructure debt funds

(mutual funds): An infrastructure debt fund, compared with a typical domestic loan, would reduce the cost of debt by up to 3 percentage points and increase tenor by up to 5 years, which would reduce the delivered

cost of renewable energy by approximately 14.5%. Partial credit guarantees: Partial credit guarantees reduce the cost of debt by enhancing the credit rating of a project. By using a partial credit guarantee, an A-rated bond at 12.8% can be enhanced to AA, reducing the cost of debt by up to 1.9 percentage points, which when combined with a tenor increase of 5 years compared to domestic debt would reduce the delivered cost of renewable energy by approximately 10.5%. Partial risk guarantee: Partial risk guarantees attract foreign funds by mitigating political risks. A partial risk guarantee, for a typical foreign loan at 13% for 10 years, could reduce the cost debt by up to 1.8 percentage points and extend the tenor by up to 10 years, ultimately decreasing the delivered cost of renewable energy by approximately 12.7%. Exchange rate liquidity facility: An exchange rate liquidity facility offers a standby lower-cost credit line to mitigate currency depreciation risk for project developers who access

foreign loans.A liquidity facility, compared to a typical foreign loan at 13% for 10 years, would reduce the cost of debt by up to 1.4 percentage points and increase the tenor by up to 8 years, which would decrease the delivered cost of renewable energy by approximately 11.2%. T h e s e in s t r u m e n t s c a n potentially help mobilize domestic capital and foreign investment, while improving risk management. Ultimately, the selection of the most appropriate instrument(s) for solving India’s renewable energy financing challenge depends on policy priorities and implementation feasibility. The actual benefi t derived from these instruments depends on their design and implementation. The government of India should coordinate with financial institutions and research organizations on the selection, development, and implementation of these financial instruments. Depending on which instrument mixes seem most relevant to India, we recommend further analysis to examine the instruments in greater detail: for the direct government lending program, on the design of the program to identify checks and balances to limit crowding out private investment; for infrastructure debt funds, on how to increase effectiveness and suitability for renewable energy projects; for credit guarantee on project selection and cost of implementation; for risk guarantee, assessment of guarantee programs already implemented elsewhere in the world; and for exchange rate liquidity facilities, on feasible models for Indian conditions.

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& EQBusiness Financial MNRE: Shri Piyush Goyal Takes Over Charge Of Ministry of New & Renewable Energy State(Independent Charge) of

clean and green energy and to

Ministry of New & Renewable

ensure synergy in the power, coal

Energy.

and renewable energy sectors.

Speaking to media persons while taking the charge of the Ministry of New & Renewable Shri Piyush Goyal recently took over as the Minister of

A holistic vision for ensuring energy security of India would be developed.

Energy recently, Shri Goyal

Appreciating the Gujarat model

said that his priority would be

in the development of renewable

to expand scope and usage of

energy, Shri Goyal said that he

would learn from the experiences of Gujarat, Madhya Pradesh, Goa as well any other best practices from anywhere in the world that could be brought to India. Laying down the vision of his Ministry, Shri Goyal said that it would be policy driven and process driven where the focus would be on the outcomes and action.

Green Bonds Could Cut India Clean-Energy Cost 25%: Report Funding renewable projects with Indian government-backed green bonds could lower the cost of clean power by as much as 25 percent, according to a study. The government could sell bonds and lend the proceeds to wind and solar farm developers. India could offer funds a third cheaper than commercial bank loans and for double the tenor as the government has the highest domestic credit rating, according to a report by the Indian School of Business and Climate Policy

Initiative, a San Francisco-based research firm. India, ranked Asiaâ&#x20AC;&#x2122;s third-most attractive country for renewable investments by Ernst & Young LLP this year, plans to double its clean-energy capacity to 55 gigawatts by 2017. Lack of affordable financing is an obstacle to reaching that target as the central bank is raising interest rates to combat inflation and commercial banks are wary about lending to new technologies.

The state-run Indian Renewable Energy Development Agency Ltd. raised about 7.2 billion rupees ($117.8 million) last month selling 10-, 15- and 20-year tax-free bonds to help finance clean-energy projects, according to data compiled by Bloomberg. In addition to green bonds, the government could step in with other financing instruments such as infrastructure debt funds, partial credit guarantees for projects and a low-cost

credit line to mitigate currency depreciation risk, the report said. Indian commercial banks offer 10-year loans with interest rates of about 12 percent to renewable plants. Such unfavorable terms add as much as 32 percent to the cost of renewable energy in India, Climate Policy and the Indian School of Business said in a separate report last month.

Experienced Professional Available For Hiring :

Jai Prakash Gupta Graduate in Electrical Engineering from N.I.T. Raipur (1968) MBA from Punjabi University, Patiala. Fellow of Institution Of Engineers (India). Served A Grade public sector undertaking (1968 to 2004) (SAIL/STC) On Senior Management Scale (Head) for about 36 years. Trained Solar Project Management Specialist â&#x20AC;&#x201C; USA. Worked in solar industry at USA for 6 years up to 2010.

Recent Assignment

Waaree Energies Limited, Mumbai: Vice President (Engineering) (October 2011 to March 2014):

1. Corporate communication and TURN AROUND STRETAGY: Entire corporate correspondence related to MNRE channel partner, CRISIL grading, solar project, TURN AROUND FROM NEGATIVE FIELD TO POSITIVE BUSINESS AND STRATEGY CREATION, land allotment, Industrial licenses, Bay allocation, 33/132 KV transmission line construction, permissions from C.E.I., NOC from several departments like water, environment, local Government or any matter what so ever. All State regulatory commission registration, all renewable energy development agency rate contract and correspondences, filing, returns, PPA execution etc. 2. Detailed Project Reports of Rooftop project, MW project, KW Project, Solar water Pump project etc. 3. MNRE Capital finance assistance, application filing, project approval, sanction and credit of CFA SPECIALITY: Very good Health (DOB : 4.02.1947) 4. BOM for any MW scale Roof top system KEY STRENGTH & SKILLS 5. All States Discom and Holding company PPA and allied matters Technical Products Business to Business Processing Sales & Service ( R & M) 6. Generation of business from Industries and Government Departments at huge profit margin Product Management Tendering & Contracting Budgeting & Proposal 7. REC registration, accreditation, price fixation Day Ahead Market, REC sell, REC/RPO road map Opening Market Assessment Economic Strategy Planning & Scheduling Business Development Business Communication Customer Relation Management of Very-Very large business potential 8. DG set abetment scheme and relief from Diesel cost to the extent of 70% for the running industry thru solar plants also telecom towers. 9. Captive Power Production and LTOA complete assignment 10. Tender preparation and adopting some brilliant scheme for L1 achievement to run on WIN WIN J.P.GUPTA, Flat No. 102, Transresidency Building-1, MIDC, Near situation ICICI Bank, Subhash Nagar, Andheri (East), Mumbai 400093 11. Training on all related topics of solar PV for sales team, senior executives and management trainees 12. Viable Gap Funding from Solar Energy Corporation of India for 50 MW project.

Email: solarenergycalifornia@gmail.com Phone: 9004904449/9222516444

SO L A R P V I NV ERT ERS

ACVA Solar Installs The First Darfon String Inverter Plus Smart Trimmer Based PV system. Chetan Vyas, Managing Director - ACVA Solar Pvt. Ltd.

or various reasons, all of the present manufacturers of String inverters and Smart Inverter combination are not satisfying the Indian market’s specific requirements. We want to bridge this gap by designing and integrating the Smart Inverter based systems in India. One of specific needs of country was to stop the reverse flow of power from a grid tied system in case it was not being utilised by the load. As a result ACVA Solar Pvt. Ltd., a Baroda based company from Gujarat has tied up with DARFON, a Taiwan based company for their Micro Inverters, String Inverter and Smart Trimmer products. As a direct outcome the first system of 13 kWp using String Invertor plus Smart Trimmer combination has been installed over an Educational Institution since Jan. 2014. In this system 52 panels of 250Wp are connected with a 4 kW x 3 Nos. of Darfon String Inverters. These String Inverters are tied with Smart Trimmers which controls the output of the inverters to match the loads. Any excess energy during low/zero load hours is stopped by these Trimmer from flowing back to the grid. This operation is on real time bases and gives excellent reverse protection at a cost of minor grid power usage (for sensing purpose) in case of low loads (loads being lower than the generation). Full power of the system with inverter efficiency in excess of 97% gets fully utilised in case of full load conditions.

˙RS-485 Communication

has been worked out by Darfon for Indian markets and is available through ACVA Solar Pvt. Ltd. The salient features of the combination are as follows :

˙Port Available ˙DSP Base Programming ˙IP 65 Protection Degree

Features of : PVI 4000 and PVI 5000 String Inverter

˙Rigid Casting Case Once again the benefits derived from String inverters plus Smart Trimmer are :

To prevent the excess electricity generated by a solar system from flowing to the grid. In other words, the solar system is grid tied but not feeding the grid.

˙Auto-detect Frequency ˙Multi-input (2 Channels) & MPPT



Dynamically sense the load and adjust the AC power output from inverter, matching power generated by solar system with load’s requirement.



Proprietory solution together with Darfon string inverters.



Reliability assurance of more than 5 years.

˙High Power Conversion Efficiency

This AC power trimmer or conditioner is online and can be either grid tied or directly connected on load side. The combination of Smart Trimmer with String Inverters 26

EQ May 2014

www.EQMagLive.com

May 2014

SO L A R P V I NV ERT ERS

Optimize PV Systems To Achieve Financially Attractive Projects Kapil Maheshwari - Solar Inverters, India Danfoss Industries Pvt. Ltd.

s the solar industry matures, a solution for commercial and utility power plants is needed that both addresses the fierce cost challenges in the PV market and which is global and easily adaptable to regional requirements. The MLX concept answers to these challenges. The MLX inverter concept builds on new ideas of how to optimize PVsystems. It draws on the advantages from both string inverters and central inverters, making it applicable in many commercial and utility size systems. Internally the plant will look like a decentral plant, with all the advantages of a string system. Seen from the outside the plant will resemble a central system, with a single point of access for all control and communication.

Why choose the MLX Concept? The MLX concept centers on a highly

The MLX Inverter •

The top-level efﬁciency of 98.6% of the MLX inverter already takes the internal consumption of the inverter into consideration (cooling, etc.). Therefore only electricity costs due to small loads, such as the monitoring hardware or the surveillance cameras need to be considered.

•

Designed for long strings (23-25, 60 cells, c-Si standard modules) it reduces losses and cabling costs onthe DC side.

•

Standard 400 V, 3-phase AC voltage, without neutral wire, reduces cabling costs on the AC side as well as cost and lead time of the LV/MVtransformer station.

efficient inverter, external DC combiners and a communication hub called the MLX Inverter Manager. These form a decentralized concept that allows full placement freedom of DC combiners and inverters. The MLX inverter is a high performance inverter with

From the string inverters the MLX concept has adopted the: •

Flexibility in plant design/layout

•

Low weight and compact dimensions suitable for wall plate mounting

•

Service concept based on simple exchange service

From the central inverters the MLX concept utilises the: •

Cost competitiveness

•

Easy integration towards grid (ancillary services)

•

Easy integration into third party communication systems e.g. SCADA

When planning a PV plant, the objective is to obtain a high return on investment (ROI) and low levelized cost of energy (LCoE). This requires the use of an inverter concept along with medium-voltage transformers with optimum efficiency, a clear focus on how to limit cable losses and losses due to shading as well as a detailed plant monitoring scheme. At the same time, planning, hardware and installation costs should be reduced as much as possible. 28

EQ May 2014

an impressive power density (60KVA at 75kg) all set in a mechanical enclosure, which is compatible to both metric and imperial fittings. The MLX Inverter Manager provides a single point of access to up to 42 inverters in a network. All interaction to and from the plant takes place here. This simplifies commissioning, plant control, monitoring and service.

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•

No AC combiners are required; LV protection can be integrated in the transformer station.

•

Surge protection deployment costs are reduced. SPDs are integrated in the inverters.

•

IP 65 for outdoor installation. The MLX inverter is designed for reliability.

•

No ground work or clearances are required for mounting and exchanging. Standard transportation is used both to and within the plant (4 inverters per pallet on doublestacked pallets).

•

No special training or service contracts are required

The MLX Inverter Manager •

Single point of access for each 2.5 MVA subplant gives simple plant network deployment.

•

Communication based on Modbus TCP/IP is easy to integrate in SCADA systems.

•

The MLX Inverter Manager provides safe upload to data warehouse services, and control of all local requirements and settings from the DNO.

to maintain a high clearance to ground, which is of relevance in flood zones or fastgrowing vegetation areas. Land utilisation is optimised, as no additional space is required for positioning the inverters. Four MLX inverters fit a standard pallet. This makes transportation to the plant cheaper and more flexible, as the MLX is always stacked in two pallets per pallet place, 8 inverters in total. This means 12 MW can be transported in a single 40 ft. container. In addition smaller trucks can be used inside the plant because of the low weight. It furthermore has the add-on effect that access roads and clearance requirements are reduced.

DC combiners

Designed for reliability

•

Standard combiners with single or double fusing

•

Off the shelf purchase supplied by any supplier according to preference

•

No integrated monitoring in the DC combiner is required

•

Customized combiners (DC-Switch, SPDs) possible to adapt to project specific requirements

MLX inverters incorporate features for improving reliability and lifetime in outdoor locations, such as a die cast aluminium cabinet, separation between installation and electronic areas, coated PCBs, and a potted coil box. MLX inverters have a very flat efficiency curve with high efficiency at its minimum Vmpp, 570 V. Optimal performance of the inverter is thus achieved even during high ambient temperatures.

Advantages and Possibilities Land Use, Installation and Transport Due to the IP 65/NEMA 3R enclosure, the MLX inverter is suitable for outdoor installation. It needs neither additional shelter nor civil works when mounted below the modules on the back side of the module substructure. The compact dimensions, low weight, and optimized cooling system allows it to be installed on 2m PV racks, allowing easy installation and maintenance. Due to the low height of the MLX inverter, this kind of installation makes it possible

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Commissioning, Monitoring and Service For fast and hassle-free commissioning, a PC program called the LCS-Tool (Local Commissioning and Service Tool) is provided. This tool is the user interface for the MLX InverterManager and ensures easy commissioning and service. For monitoring separate user interfaces are required.

external data warehouse services such as the Danfoss CLX Portal. Data collection from up to 42 inverters, or what is equivalent of 2.5 MW, is managed through the MLX Inverter Manager. The communication protocol is the open Modbus TCP/IP protocol with SunSpec Alliance profile via Ethernet.

Service and warranty Service is based on simple exchange service as both the inverter, DC Combiner and MLX Inverter Managerare easy to replace. Extra components can be kept in stock locally for fast exchange, increasing the availability of the plant. The LCS-Tool is used for troubleshooting and detailed error-logging, as well as easy replication of settings to new inverters in the system. Standard warranty conditions apply,which means that special service contracts known from central inverters are not necessary. Furthermore, in case of failure only asmall part of the system will be affected.

Build your application on conﬁdence Based on familiar tried and tested technology the MLX concept represents forward thinking. By listening to what the market wants, Danfoss has delivered a unique solution that combines the clear advantages of a decentralised layout with central inverter thinking. With the MLX, you get powerful technology you know and trust and a concept that optimises overall plant efficiency and total cost of ownership by placing focus on the entire PV system over its full lifetime, from installation to servicing.

Monitoring facilitation The MLX Inverter Manager facilitates seamless integration into existing monitoring systems of choice as well as easy upload to

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May 2014

SO L A R P V I NV ERT ERS

Delta To Unveil Its Latest Solar Energy Solutions At Intersolar Andreas Schmidt, Head of Marketing Delta Energy Systems

The leading global provider of power and thermal management solutions will demonstrate its expanded solar inverter product line at Intersolar Europe in June.

he new inverters from Delta will enable PV plants ranging in size from a single solar module on a residence all the way up to MW-scale solar parks.

function can be easily controlled from a laptop connected to the SOLIVIA nano GW via a point-to-point wired or wireless connection.

At Intersolar this year Delta will exhibit solar energy solutions that include optimized micro inverters and three-phase transformerless inverters for the residential market, as well as high power and high efficiency commercial solar inverters.

Remote monitoring with the SOLIVIA nano GW is enabled with an internet connection and SOLIVIA Monitor, the system monitoring software from Delta. Real-time performance and energy harvest information from each micro inverter is gathered by the SOLIVIA nano GW via the electrical wiring in the building. The gateway sends the data over the internet to the SOLIVIA Monitor software for viewing online at anytime.

Delta visualizes a clean energy future where everyone can enjoy the benefits of renewable energy and energy savings. With the introduction of new solar inverter products for home owners with smaller power generation goals, to business owners requiring MW-scale power generation, Delta is providing solutions that help everyone meet their energy goals in a smart and ecofriendly way.

Residential Solutions A highlighted solution for residential PV applications will be the SOLIVIA nano 260 micro inverter and SOLIVIA nano GW gateway. With the new micro inverter from Delta every solar module in a PV system gets its own inverter. The micro inverter, with 260 watt output, is mounted directly under each solar module and is used to harvest the maximum available energy from the PV system. The devices are ideal for situations where there may be partial shading or complicated roof structures. Since each micro inverter is working independently to seek out the optimum working point of its connected module, irregardless of shading effects on other nearby modules, a continuous 30

EQ May 2014

and high level of energy can be provided from the entire system. With the SOLIVIA nano 260, small or even single module solar systems can be implemented. However, existing larger plants can also be expanded when string and micro inverters are combined within the same plant. The SOLIVIA nano 260 has integrated NS-protection (network and system protection) making it compliant with grid interconnection standards for PV systems in Germany. No extra protection devices are required, making the whole system easier to install and more affordable.

Besides the new micro inverter system, Delta will launch three new transformerless models known as the RPI M6A, M8A and M10A featuring 6, 8 and 10 kW power outputs respectively. The new three-phase solar inverters are designed for residential or small commercial applications and feature a high max. efficiency up to 98.5 %. Since all three models feature a compact design and low weight for their power class, installation is greatly simplified. For the system planner, maximum flexibility is ensured thanks to a wide input voltage range of 200 â&#x20AC;&#x201C; 1000 V and 2 MPP

Ease of installation is also ensured thanks to the Amphenol AC cabling system, featuring a trunk and drop cable configuration. The SOLIVIA nano GW gateway is designed to work together with SOLIVIA nano 260 micro inverters, to monitor and control their operation. Every essential

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The new units are compatible with major types of PV modules and the robust IP65 rated enclosure allows outdoor installation.

Commercial Solutions The RPI M50A, a 50 kW transformerless three-phase inverter to be introduced will feature the largest output power in the Delta product line, making it an outstanding choice for commercial-scale PV systems. The PV inverter features a very high max. efficiency of 98.6 % and exceptional power densityto-size ratio. trackers that support asymmetrical loading (33/67%). The asymmetrical loading can increase yield in such applications as east/

A wide input voltage range of 200 – 1000 V, coupled with 2 MPP trackers provide

The M50A electronics compartment with its IP65 enclosure rating is designed for outdoor installation, even in harsh environments. An IP65 AC plug is also included in the scope of delivery along with a wall mount bracket that allows the unit to be easily and safely installed onto a wall. Delta’s broad transformerless inverter series with outputs from 6 to 50 kW, combined with transformer-based products with outputs from 260 W to 11 kW, enable PV plants of all types and sizes to be built that incorporate all types of solar modules. Andreas Schmidt, Head of Marketing at Delta Energy Systems says, “We are excited to be able to offer customers of all types PV solutions, from a private customer installing a small PV plant on his residence to an industrial customer looking to install a large rooftop system on a business, or a solar park owner with the need for MW-scale PV power generation. In all cases, Delta has solutions for each one that enable optimized PV energy generation.” The SOLIVIA nano 260 Micro Inverter and the RPI M6A / M8A / M10A / M50A will be available for delivery in select European countries starting in Q3 2014.

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west roof installations, where modules are orientated in different directions.

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maximum flexibility in system design and maximum yield. To further simplify the installation process and provide added cost savings, the M50A ships with integrated and replaceable AC and DC-side SPDs (surge protection devices) as well as integrated string fuses. The extra costs of external protection devices and enclosures are avoided and more efficient use of limited installation space is also an added benefit.

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May 2014

SO L A R P V I NV ERT ERS

Energy Management Control To Meet Minimum Technical Requirements In Photovoltaic Power Plants Víctor Andrés Díaz, José Ramón Gordillo, Carlos Infante, Manuel Lagares R&D Department

he increasing inclusion of renewable energy plants into National Electric Grids has driven regulatory agencies to the establishment of a set of requirements in order to ensure that these plants will help to achieve the whole grid stability. These sets of requirements to be met by the plants are named Minimum Technical Requirements (MTRs), and can be categorised as: •

Voltage Requirements

•

Frequency Requirements

•

Reactive Power Requirements

Depending on the country, MTRs must take into account additional devices are

Figure 1. General Control Scheme

needed to interconnect a PV plant to the electrical grid together with PV inverters. Among others, the use of energy storage elements as well as elements of reactive power compensation may be needed. Each set of requirements defines the engineering design of different elements of a power plant. These elements have to be developed in accordance with the needs of active and reactive power injection;in addition, they have to define communications architecture between the different elements

EQ May 2014

in order to ensure suitable response times. Main devices to meet Minimum Technical Requirements (MTRs) are: • PPC: Power Plant Controller The PPC is the main control system responsible ofgenerating control references Figure 2. General Plant Single Line Diagram in order to manage the power Systems designed by GPTech focuses on flow at the point of interconnection (POI). strategic markets in the most demanding This device performs different types of control grid environments: Chile, Brazil, Puerto Rico, of both active and reactive power and also USA, etc.Puerto Rico? commands the devices of the plant. • Plug & Play Containerized Solution, The PPC communicates fully equipped and tested for direct with other devices through two connection to MV. independent network interfaces, • Battery Power Converter System based control and supervision, on the GPTech conversion technology. according to the needs of the • Developed in conjunction with leading plant. battery manufacturer’s brands. • STATCOM: Static • Setting charging and discharging times Synchronous Compensator to suit the needs of the plant and improve Its function is to inject the life cycle of the storage cells. capacitive, inductive or reactive power in order to meet voltage, GPTech Power Plant power factor or reactive power Controller Solution references according to the PPC control. GPTech is an experienced partner in the • Capacitors Bank development of hybrid plants. The company A group of several identical capacitors has already developed controllers for various interconnected in parallel or in series. energy combinations, such as wind diesel They act as a source of capacitive reactive power generators, grid-tie wind PV battery power. generators and grid isolated PV battery • PPS: Plug and Play Storage storage systems. System. It works in energy hybrid generation systems to inject or absorb active power. The Plug and Play Integrated Storage

GPTech Power Plant Controller (PPC) is designed to fulfill MTRsin many different countries such as Puerto Rico, US or South Africa. In the last case, GPTech PPC has

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for the amount of active power that the facility isallowedto generate. This instruction may be issued manually or automatically via remote control facility. Figure 3. CPV facility Single Line Diagram

been successfully installed in a 37,8 MW CPV facility, following the MTRs set by the Main National Utility ESKOM. This PV plant implements the following controls. •

Voltage Control

•

Reactive Power Reference Control

•

Power Factor Control

•

Ramp Rate Control

•

Active Power Curtailment Control

Voltage, Power Factor and Reactive Reference Control System A constant voltage control is required. PPC must have a closed loop of VRS control, equivalent to the Automatic Voltage Regulator in conventional generators. The VRS controller regulation is based on closed loop actions with parallel reactive droop compensation. The VRS set-point must also be adjustable by the operator. In the example above mentioned in South Africa,constant power factor and fixed reactive power control are required. The PPC gives priority to each control, depending on the plant operator commands. Generally, voltage control is carried out by the PV inverter reactive capability. In other power plants, VAR compensator devices, such STATCOMs or capacitors banks, provide a source or a sink of reactive power if necessary. PV inverters and MTRs devices will receive a continuous external reactive reference. If capacitors banks are included, the PPC reactive control shall be able to manage these references and integrate them in output references and the command for the connection of the capacitors.Capacitors banks will be connected following a defined sequence, so they will give a reactive response depending on their capacity. Ramp Rate and Curtailment Control Active Power Curtailment is the limit

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Ramp Rate Control is required to guarantee a smooth transition from one power output level to another. The PV facility shall be able to control the rate of power output change during some circumstances, including: •

Rate of increase/decrease of active power due to irradiance

•

Rate of increase of power when an external curtailment of power output is released

•

Rate of decrease in power when an external curtailment limit is engaged

This ramp rate may apply both to the increase and decrease of power output and is independent of meteorological conditions.

ready to feed or store a specific amount of power at each moment. At this point, the state of charge (SOC) management becomes critical. The SOC management control will make the SOC value to be within a target band whenever possible. The way to achieve this objective is by adding a ∆P to the reference power that comes from the PPC ramp and frequency control algorithm.So PPC control strategy for SOC management must avoid the following situations:

Figure 4.PV Plant behavior with PPS

Frequency Response/Regulation:

•

Generally, the PV facility shall provide an immediate real power primary frequency response, proportional to frequency deviations from scheduled frequency, similar to governor response.

If PPS reaches to SOC maximum, the storage system is only available for feed power.

•

If PPS reaches to SOC minimum, the storage system is only available for storage energy.

The PPC has several possible modes of frequency control divided in two categories. The first category refers to a plant without storage systems where PPC can only deal with over frequency. The second category is designed for plants with storage systems where they will face both under frequency as overfrequency.

GPTech’s next control challenge In order to meet MTRs, increasing power when frequency deviation is negative or achieving ramp control may be necessary depending on the country. In this case, the PV Plant needs to add an external Plug and Play Storage System.The following figure shows the PV Plant behavior with Plug and Play Storage considering an irradiance perturbation. Considering the control algorithms studied before, PPS allows the system being

Otherwise, the real power control becomes inefficient and the whole system energy production will not meet the optimum point.This type of control is typically demanded in countries with a weak electrical system, as,for example, Puerto Rico. In weak systems, the PV facility needs to be able to respond to any perturbation as long as possible. For that reason,PREPA, the regulatory agency in Puerto Rico,has one of the most restrictive minimum technical requirements. For those cases, GPTech has developed its PPC and PPS specifically to accomplish with weak systems. These solutions can be integrated with any number of devices from different manufacturers and, also, implements the most common communication protocols, what makes them ready for any energy challenge.

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May 2014

SO L A R P V I NV ERT ERS

New Products, New Horizons – KACO New Energy At Intersolar Europe 2014 KACO new energy

n addition to a line-up of new 1-phase and 3-phase inverters, KACO new energy is also exhibiting highly integrated system solutions for grid-tie and off-grid energy supply. KACO new energy is looking back on 100 years of company history in which technological innovation was always the motivating factor for change. At the Intersolar Europe in Munich the Neckarsulm inverter manufacturer will for the first time be exhibiting the new blueplanet range, more powerful central inverters and optimised storage systems. A second focus lies on the integration of additional energy sources such as thermal storage systems or diesel generators. Hall B2, Stand 310.

The 1-phase string inverters blueplanet 2.0 – 4.6 TL1 With a line-up of 1-phase transformerless appliances, KACO new energy will be

inaugurating the new „blueplanet“ inverter series. Newly designed and constructed from scratch, the blueplanet TL1 fulfill the highest requirements for optimum use in residential arrays. Their finely differentiated output ranges from 2.0 to 4.6 kilowatt (AC), so that even operators of the smallest systems will find the right inverter here. A further voltage range starts at as little as 125 volts and goes up to 510 volts

EQ May 2014

which allows for a multitude of string designs. Having 2 MPP trackers, (from blueplanet 3.5 TL1) which can each process the whole AC power, system layout is even easier. Angled roofs or sub-arrays with different orientations? No problem for these flexible appliances. And weighing just 15 kilograms, the blueplanets are almost fun to mount. Using plug-in connectors on the DC and on the AC side, they are also just as quickly connected as they are mounted. The RS485 and the ethernet interfaces, as well as the USB port ensure elegant communication and convenient monitoring. And just to round off the connection, the inverters also have the same integrated data logger and webserver as their 3-phase siblings. As usual, the blueplanet TL1 deliver their full performance without fans. Available as of Q3/2014.

The 3-phase string inverters blueplanet 5.0 – 9.0 TL3 All of the advantages of the larger 3-phase inverters can now be found in one power class which is just perfect for private roof systems. The blueplanet 5.0 TL3 to the 9.0 TL3 come, without exception, with 2 MPP trackers which can get to grips with all imaginable design configurations of a modular PV generator. As such, each MPP tracker can process the whole AC output. If you also consider the extremely wide input voltage range from 200 V to 800 V, multiple string configurations become possible. So, with these characteristics, the blueplanet TL3 present themselves as the most flexible three-phase inverters in their power class on the market. The DC and AC periphery of the blueplanet TL3 ensures the quickest cabling thanks to plug-in connectors and the menu selection is performed conveniently using the graphic display. So that the appliances can stand up to the harshest conditions out in the open, their compact housing is built to IP 65 protection class. Nevertheless, weighing just 30 kg they can still be carried easily. Should the RS485, ethernet and USB port interfaces still leave something to be desired, optional connections for WiFi

and S0-connected appliances as well as 4 digital inlets and outlets are available. The datalogger and the webserver are already integrated as standard! As a result, these inverters offer complete monitoring and strong communication in any environment. Available as of Q4/2014.

The central inverter blueplanet 1000 TL3 outdoor The blueplanet 1000 TL3 outdoor central inverter is the next high power innovation in KACO new energy’s product portfolio. Thanks to its IP54 protection class it does not need to be housed in a separate enclosed room. Thus the blueplanet 1000 TL3 outdoor is a highly economic solution compared to common central inverter stations. Moreover, the latest signal-processing technology offers maximum performance, efficiency and reliability in this high power inverter. The fully digital controller makes operation and maintenance user-friendly and offers a multitude of options for monitoring and communications. The blueplanet 1000 TL3 outdoor also scores points for maximum reliability: the internal power supply of the controller is designed redundantly and an extremely powerful cooling system protects all of the sensitive components. As such, the cooling fans can be controlled independent of the load and the ambient temperature. The well-known digital touch screen makes for convenient operation and monitoring of the appliances. You can monitor your system

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estates right up to entire town districts or for establishments with consistently high energy requirements such as hospitals or hotels. It is similarly at home for use in industrial settings where it can make the best possible use of self-consumption. As a general principle it provides the key to using as much of the energy generated on site on the site itself. remotely over the internet. Operation of all critical components is monitored continuously and potential faults are reported immediately. If a fault occurs, diagrams are generated that guarantee rapid localization of the source of the problem. The blueplanet 1000 TL3 outdoor is an inverter for the world: country-specific settings are activated at the press of a button. Available as of Q1/2015.

The bidirectional battery inverter bluestorage 120 TL3 With the bluestorage 120 TL3 KACO new energy has developed a radically new product with an exceptionally high power rating: 120 kW for charging batteries or feeding into the local grid on 3 phases. This bidirectional battery inverter is perfectly at home with any kind of AC source as well as with all modern battery systems. In so doing, it performs quickly and reliably reaching a rate of efficiency of about 98%. If the grid should fail, you also have the option of using the inverter’s emergency power function. Thanks to its considerable strength, the bluestorage 120 TL3 can transfer large quantities of electricity from peak supply times for use at a later time when demand is higher if the output of the energy source is liable to fluctuate, such as with a gridtie PV system. In view of such features its construction is exceptionally compact. The unparalleled features of the bluestorage TL3 make it the ideal partner for providing decentralised energy from large residential

Used as a key component of a peak shaving system, it lowers the connected load rating, for example – and saves money from the very first day. The bluestorage 120 TL3 also means more flexibility for grid operators too: even in critical local networks, it enables a higher level of PV penetration and affords operators greater planning security. Consolidation of the load and generation profiles also keeps the cost of grid expansion to a minimum. Awarded the SEMIKRON Innovation Award 2013 for the “Innovative Power Electronics for the Next Generation Village Energy Supply” concept. Available for immediate delivery.

The Powador-gridsave eco storage system: new 3-phase version The well-known Powador-gridsave eco storage system ensures highest flexibility thanks to its modular approach – the operator selects the battery capacity according to his requirements. In the event of grid failure it can switch over to back up power without virtually any interruption. In pure off-grid systems the Powadorgridsave eco practically becomes the heart of the system and undertakes the energy management complete with the control of any additional energy sources such as diesel generators for instance. The Powador-grid save eco can be installed as a 1-phase or as a synchronised 3-phase system making use of all known features depending on the target number of components. Available for immediate delivery.

The PV-Diesel H ybrid System KACO FuelSave With the KACO FuelSave, KACO new energy and the PRETTL Group have developed a turn-key package system for PV-Diesel hybrid systems: Components from the original manufacturers which are perfectly made for each other harmonise to form an intelligent, balanced system serving performance requirements ranging from 30 kW right up to the megawatt class. The FuelSave package

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consists of a diesel and a PV generator with the corresponding mounting system and PV solar inverter as well as the control unit (FuelSave Controller). Even existing generator sets can be adapted to incorporate the FuelSave package so that maximum performance can be achieved. The key to tapping the benefits of a hybrid system lies in the intelligent management of both systems: The centrepiece of the KACO FuelSave is the FuleSave Controller which takes care of this. This controlling system ensures that

the largest possible amount of photovoltaic is incorporated and that the diesel generator is simultaneously deployed in its optimum operating range, at the same time. The KACO FuelSave thus guarantees the maximum PV contribution and minimum fuel costs whilst protecting people and the environment. The configuration without storage system targets maximum efficiency but an optional storage system offers maximum convenience on top and enables diesel operation to be further reduced. Depending on the application, diesel savings amount to 25% or more and the system itself can be amortised in 3 to 5 years. This results in over 200% return on investment (ROI) within 10 years. In addition to the product package, KACO new energy also offers system layout, commissioning and service of the hybrid power station. Available for immediate delivery.

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May 2014

SO L A R P V I NV ERT ERS

Distributed MPPT And Monitoring Solutions For Solar Rooftops Prakash Easwaran , CEO InnoRel Systems Pvt. Ltd

InnoRel Systems offers products in two main categories:

InnoRel’s ‘eNRGATER‘ family of Smart Module Level Power Electronicsproducts offerdistributed MPPT optimizers which are based on InnoRel’s patented design, helps in recovering module mismatch losses occurring due to partial shadowing, soiling, ageing and/or manufacturing variations. An added capability of eNRGATERis its ability tomonitorevery panel’s vital parameters such as voltage, current, power, temperature etc. therebyhelpingin predicting energy yields, malfunctioning panels and frequency of O&M.The second category – InnoRel’s Smart lighting products family,consists of AC LED drivers of different wattages with capabilities such as dimming and remote controlled operation.

targeting Solar PV roof-top installations. Kerala has initiated and installed 10,000 rooftops as part of their 10000 Rooftop Solar Power Plants Programmesimilar to the 1,000 rooftop program in Germany in early 90s. The state of Tamil Nadu has announced a rooftop installation of 350MW by 2015. The state of Andhra Pradesh has already declared their intention of promoting rooftop solar systems through a net-metering scheme. However, there are a number of challenges to the growth of the rooftop PV installations. First, the roof-top installation needs to be carried out according to available space either on residential complexes or on commercial buildings. In most cases these spaces may not be ideal because of various issues like shadowing, soiling due to dust, smoke, bird droppings etc. Secondly, due to thelarge number of Solar PV off-grid plants located in various places, itwould be aherculeantask for utilities/regulatory bodies to monitor energy generation.

Background

Our solutions

The urban and rural landscape provides a large amount of empty rooftop spacewhich can potentiallybe used for solarpanel installation to harness solar energy and generate electricity that can supply the grid or be used for captive consumption. The Central and state policies in India are heavily promoting Solar PV roof-top installations for residential and commercial use. Solar Energy Corporation of India has already allotted 5.5MW capacity in 4 cities in Phase I of the Solar PVrooftop program in April 2013. Several states such as TamilNadu, Kerala, Gujarat, Karnataka and Andhra Pradesh are

InnoRel Systems has developed eNERGATER, a distributed MPPT optimizer and monitoring solution considering Solar PV roof-top requirements. Due to soiling or shadowing, afew underperforming modules can bring down the performance of the entirepanel string or system. eNRGATERhelps optimize the energy generation per panel and prevents theperformance of theentire string or system going down if there is shadowing or soiling of one or more modules.

1) Smart Module Level Power Electronics 2) Smart Lighting Products.

EQ May 2014

Following are the key features andbenefits of eNRGATER - a distributed MPPT solution.

Key Features: •

Proprietary innovative, non-invasive architecture ensuring high reliability and low cost

•

Peak efﬁciency as high as 99%

•

Power optimization without any module to module communication

•

Compatibility with any Inverter / Module which provides flexibility

•

Over-load , over-voltage and thermal protection with auto by-pass in case a faulty moduleis present in the system

Key Benefits: •

Recovers mismatch losses in the panel string/system and delivers more power in shading conditions

•

Makes array design easy, allows mix-nmatch of PV modules.

•

No risk of module obsolescence

eNRGATER roof-top monitoring solutions help monitor the panel , inverter and battery performances. The Panel monitor will be connected to every panel and the sensors will capture data such as panel current, voltage and temperature. The sensed data will be sent to the Gateway through an RF mesh, integrated with eNRGATER. The inverter monitor measures the voltage and current of the inverter. Different battery parameters such as thevoltage, charging/discharging current, SoC and temperature can also be monitored with sensorsthat have been placed in the battery monitor. All these parametersarecollected at the Gateway which will send the data to the cloud.

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Following are the key featuresand benefits of InnoRel’s monitoring system.

percentage increase in power generation, normalized for insolation.

Key features:

For a typical system, the power generated with and without the optimizer is measured and the % gain is given in the table below:

•

Monitoring different parameters of key components of on-to-grid and off-grid systems

•

Wireless network: ISM band local mesh network with AES 128 encryption for data security

•

Easy to use web interface with analysis options

•

Scalable architecture to add more monitoring sensors in future

Key beneﬁts: •

Easy to install

•

Remote controlled operationof system

•

Regular e-mail reports, instant SMS in case of failures or shading

Following is the typical schematic representation of the InnoRel Systems’ eNRGATER roof-top solution: The eNRGATER system is tested for mismatch conditions occurringon a typical 1KW rooftop system comprising of four 250 Wp panels, charging a battery via a charge controller. To evaluate the performance, the plant’s power output was measured without eNRGATER&followed by the outputafter eNRGATER was introduced in the plant. TheGain in power output is defined as a

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Thus, under typical shading scenarios, InnoRel’s eNRGATER system is able to

Condition

Description

% Gain

Pole shadow on one of Can cause a current 5.2% the panels mismatch ofupto 25% in a single panel Hard shadow on one Can cause a voltage 46.8% panel mismatch ofupto 25% in asingle panel. Combination of pole Can cause upto 25% 54.7% shadow and hard current mismatch voltage shadow mismatch in asingle panel demonstrate gainsof upto 55% in total power generation. Combined with the live monitoring and alert feature, eNRGATER becomes a very powerful tool in increasing the overall yield of a solar power plant.

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May 2014

SO L A R P V I NV ERT ERS

Zigor Solar Inverters Power Rural Schools In Tamil Nadu Giridaran Srinivasan, Senior Engineer, Zigor India Pvt Ltd

igor India Pvt Ltd is a 100% subsidiary of Zigor Corporación S.A from Spain. Zigor is well known for its solar hybrid inverter and power quality equipments globally. The Zigor recently launched its on-grid inverter into the Indian market and these on-grid single phase inverters are very efficient & suitable for Indian temperature conditions. The single phase inverters are IP65 rated and come with 2-MPPT tracking. The single phase on-grid inverter capacity is available in the range of 2kW to 5kW. Zigor India plans to expand into the rooftop on-grid segment along with our already existing hybrid inverter segment in India. no batteries are used and hence the system is more economical and also avoids losses due to storage of power. These solar installations also help in operation of motors to store water in overhead tanks for drinking and toilet use. If any excess power is generated, this additional power is sent back to the grid and the schools get benefited with the net metering (to be installed in the future).

Since this is a grid connected system, this reduces the load on local grid and hence indirectly helps the community with reduced power cuts & grid stability. These projects also benefit students to learn more about renewable energy power and also educate the local community about the latest technologies. 

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Recently, Zigor India Pvt Ltd has supplied 14 numbers of single phase on-grid inverters for school projects. This installation site is located in southern town in Tamil Nadu. The local municipality has come up with a scheme to implement 3kWp of solar PV technology for fourteen (14) schools in the same town located at various locations. These systems will produce enough energy during school hours to run the school load directly. Since this is an on-grid system

EQ May 2014

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KREMPEL GmbH

he KREMPEL-GROUP is providing greater scope for economic material usage: using new AK ASOL® backsheet laminates with fluoropolymer film in various thicknesses. No matter which of the new comers you choose: The content matches what is on the label, with the accustomed high KREMPEL quality.

and PVL 2 have been created as TPE™ and KPE™ variants. A fluoropolymer film continues to form their outer layer, while the cell side has been manufactured as a primer layer with a first-class UV protection formulation. KREMPEL supplies all AKASOL types either with TEDLAR®-PVF films or KYNAR®-PVDF films.

Four AKASOL® variants with fluoropolymer film in 25 µm or 18 µm thicknesses are new in the product portfolio. They complement the two proven AKASOL product groups with 38 µm and 30 µm: The classics, AKASOL® PTL and PVL with fluoropolymer film as the cell-side layer and outer layer, known as TPT™ and KPK™ types, have proved their quality in use throughout the world. In a cost-optimized further development, AKASOL® PTL 2

“We are supporting the best possible material selection at all levels. That starts with clear designations”, says Karlheinz Brust, Technical Director of the Solar Materials Division at KREMPEL. “Our KPK™ and KPE™ variants give anyone who chooses AKASOL® quality with KYNAR® film exactly what the name promises: the threelayer KYNAR® original that we developed together with ARKEMA. Furthermore our TPT™ and TPE™ variants actually do use

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DuPont’s TEDLAR® film”. KREMPEL’s solar experts always follow the rule of transparency when advising customers in respect to application-specific material selection. This is based on 30 years of market success.

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May 2014

SO L A R P V M A N UF A CT URI N G

New, Attractively Priced PV Backsheets from KREMPEL: Greater Scope. 100 Percent Transparency.

S O L A R P V M A N UF A CT URI N G

Qualification Testing Of Monolithically Assembled Modules Using Mwt PV Cells And Contacfoil®, A Large Area, Laser Patterned Foil System Markus Rees* and Jörg Ziegler, Eppstein Technologies GmbH, Burgstrasse

contacfoil® is a flexible, laminated foil system, which can be produced in a roll-to-roll-process and which enables the monolithic assembly of modules using back contact PV-cells. The foil system is comprised of a laser patterned conductor layer and an insulation layer (PVB) with laser produced openings to accommodate the cells contacts. It is combined with embedding layers to form the inside of a PV-module to protect and interconnect the cells. In this paper we report on results obtained with reliability tests, namely temperature cycles under load and damp heat exposure according to IEC61215. These tests have been performed with various material combinations and using different technologies for cell contacting. The results show that contacfoil® is a fully functional alternative to flexible circuit boards or string based interconnection methods for back-contact cells offering advantages in module assembly and costs. The foil system can accommodate various module designs as it can be combined with a range of embedding materials and can be used with low temperature solders, conductive epoxies or hybrids alike. The conductor materials and thicknesses (resistance) can be adapted to the specified power rating of the module.

1 OVERV IEW With con t ac foil® EppsteinTechnologies has developed a flexible, laminated foil system, which can be produced in a roll-to-roll-process and which enables the monolithic assembly of modules using back-contact PVcells [1]. The foil system, schematically shown in Fig. 1, is comprised of a laser patterned conductor layer and an insulation layer (PVB) with

laser produced openings to accommodate the cells contacts. It will be combined with embedding layers 1 and 2 to form the inside of a PV module to protect and interconnect the cells thereby adhering to the modules backsheet and the front glass. Module assembly can either be from the front glass or the backsheet side. In both

Figure 1: Schematic representation of contacfoil® 40

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cases the contacting material (special solder with a low melting point, conductive epoxy or hybrids) is deposited onto the contact points of the cells or onto the conductor at the cells contact positions. In Fig 2 the laser patterned conductor layer with the contact openings is shown together with a MWT-cell prepared for assembly. The solder

Figure 2: Laser patterned conductor layer and preconditioned MWT-cell, ready for assembly

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bumps on the cell contacts consist of a special solder with a low melting point (typ. 138°C) and are applied by screen printing and can subsequently be pre-cured by heat treatment if needed. In the final lamination process the solder bumps melt, thereby allowing for the formation of electrical contacts between the cells and the conductor layer. Additionally, the embedding and insulation layers become adhesive forming a mechanically stable compound with the backsheet, the cells and the front glass. For studying the module reliability achievable with contacfoil® and these new in-lamination contacting and encapsulation processes, test modules comprising four back contact cells (2x2 as shown in Fig. 3) have been built by using MWT-cells from Solland, different conductors as well as different new and in the meantime commercially available embedding and backsheet materials. These test modules have been exhibited to the most critical reliability tests according to IEC61215, namely damp heat (DHT) and temperature cycling under load (TCT). In order to gain insight into eventual failure mechanisms, the modules performance (IVcurves) has been measured before, at different times during and after the tests. Furthermore infrared and electro luminescence images of the modules obtained before and after the tests have been compared and the load currents of the modules have been monitored during the whole temperature cycle tests. The latter allowed for an exact determination of failure points and failed modules could be taken out of the test for immediate failure analysis. Finally a 60-cell full size module was built and tested for module performance.

2 TEST MODULES AND TESTS 2.1 Test modules A typical 2x2-test-module is shown in Fig. 3. It contains 4 MWT cells of the type Sunweb156PS395, contacfoil® to be tested, a commercially available backsheet (typically Coveme (PYE) or Icosolar (AAA)) and a front glass (typically SGG Albarino T4). For connecting the module to the external tester circuitry contact ribbons have been soldered to the conductor foil and taken out of the module sidewise as can be seen in Fig. 3. Test modules have been built to study the influence of different material combinations on the behaviour of the modules

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Figure 3: 4-cell (2x2) test-module with external connections (seen at the bottom)

in environmental tests. The results will be used to specify the design freedom for module manufacturers using contacfoil®. The following main material and technology categories have been tested: - Cont acting technology: Low temperature solder, conductive epoxies and hybrids - Conductor materials: Cu in various thicknesses and Al with Cu-coating for cell connection

- Embedding materials: EVA , XUS 66232.00 and a proprietary experimental material An overview over the various material combinations tested and reported here and the environmental test procedures applied is given in Table I. Table I: Overview over tested 2x2 glassfoil modules Of special importance is the selection of the conductor material as the conductor is a major contributor not only to the material costs of contacfoil® but also to the performance of the module. Accordingly copper conductors of different thicknesses have been tested and also aluminium as the preferred low cost conductor alternative was studied. So far the use of aluminium was prohibited in pv-modules due to the lack of suitable contacting technologies. In the tests

Figure 4: Al-conductor with a copper treatment on one side seen through the PVB-insulation layer. Please note the circular contact openings to accommodate the contact material

reported here, we used a 150nm Cu-coating on a 40µm thick Al conductor foil (Fig. 4). The Cu coating provided a suitable surface for solder or conductive epoxy connections between the cells and the Al conductor. 2.2 Tests The various tests have been performed in the laboratories of EppsteinTechnologies as well as of Schott Solar and ECN, the latter in the context of joint development projects. For measuring IV-curves certified PASAN flashers have been used at Schott Solar and ECN whereas the measurements at Eppstein Technologies have been performed with a proprietary LED-based tester. This LED-tester is designed especially for comparative tests with test modules up to 6 cells (3x2) and it is equipped with LED-light engines providing a homogenous illumination, which results in an electrical module solar spectrum according to Air Mass 1.5. The differences of the results obtained by the IV-curves measured with the LED-tester and certified testers are typically < 1%. The thermal cycle test under load (TCT) and the damp heat test (DHT), both as specified in IEC61215, have been selected as the most critical environmental tests. All tested modules have been exhibited at least to one or two times the specified number of cycles and also to one or two times the specified test duration, respectively. Especially the TCT was considered critical as it applies varying stress onto the contact point

May 2014

Figure 5: Typical current traces observed during TCT tests. Module failures can be clearly seen in the form of “noisy” traces.

and the various material layers due to the

differences in the coefficients of thermal expansion of the various materials used. Hence it was decided to monitor the load currents flowing through the modules during the whole temperature cycle tests. This allowed for an exact determination of failure points and failed modules could be taken out of the test for immediate failure analysis. In Figure 5 typical current traces obtained during a TCT are shown. For selected modules infrared and electro luminescence images of the modules obtained before and after the tests have also been compared.

In Figs. 7, 8 and 10 the degradations of the modules peak power, Pmpp, as measured for soldered modules with Cu-connectors are depicted. Thereby two different Cu qualities have been used, namely rolled Cu without corrosion protection with a thickness of 15µm and electrolytic Cu with corrosion protection with thicknesses of 18µm and 35µm, respectively. In Figs. 7 and 8 the degradations of the module peak power, Pmpp, as measured for soldered modules with Cuconductors are depicted. Good results have been obtained with both Cu qualities (rolled and electrolytic). Also the electroluminescence images show virtually no differences before and after the tests (Fig. 9). In Fig. 8 we notice a certain “annealing” effect and the power output of the modules increases with test duration. The reason for this annealing effect is not yet understood.

3 TEST RESULTS 3.1 Test modules

Figure 6: Typical IV-curve for a 2x2 test-module

Figure 7: Power degradation observed for soldered modules with 15µm rolled Cu (measured by Schott Solar)

Figure 8: Power degradation in soldered modules with 35µm electrolytic Cu with corrosion protection (measured by Schott Solar)

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Typically good 2x2modules show fill factors (FF) between approx. 74% and 76.5%, depending on the exact material combinations and cell selections used. These fill factors agree well with theoretical calculations and are approximately 0.5% to 1% lower than the values to be expected from full size 60cells modules. This originates from the fact that ohmic losses originating from the cross connections between the cell rows and the connections to the measuring circuit have higher relative contributions to the total ohmic losses in small modules than in large full size modules, where the losses associated with cell connections dominate. A typical IV-curve for a 2x2- module is shown in Fig. 6. By measuring and analysing the IV-curves before after and during the TC- and DH-test, the degradation of modules has been measured using the different material selections.

Figure 9: Typical electroluminescence images before and after test (taken by Schott Solar)

In Fig. 10 the degradation results are shown for 18µm thick electrolytic Cu as a conductor. The trace shows again an “annealing” effect during the first test period and the peak power increases. Thereafter the peak power degrades as expected, but stays well within the limit as specified by IEC61215. Visual inspection of the conductor after the test has revealed small microruptures, which however, do not seem to influence the modules performance below acceptable limits. The root cause for these ruptures is currently under investigation. Figure 10: Power degradation observed for soldered modules with 18µm electrolytic Cu conductor with corrosion protection (measured by Schott Solar) Similar results have been obtained in TC-tests at ECN with test modules using conductive epoxies instead of low temperature solder (see Table I). Finally Cu-coated Al-conductors have also been tested. The results are shown in

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Figure 10: Power degradation observed for soldered modules with 18µm electrolytic Cu conductor with corrosion protection (measured by Schott Solar)

The IV-curve measured at ECN with the 60-cells module is depicted in Fig. 14. Analysis of this curve shows that a fill factor of 76.55% could be achieved and the module delivers a peak power of 238.38W under standard test Figure 14: IV-curve measured at ECN 4 conditions (1000W/ m2 and Air Mass 1.5). These data agree well with theoretical calculations and show Photovoltaic Solar Energy Conference and a power loss from cell to module Exhibition, Hamburg, DE, (2011)

Figure 11: Power degradation observed for soldered modules with Cu-coated Al conductor (measured by Schott Solar (DHT) and EppsteinTechnologies (TCT))

Fig 11. In DH-test the modules perform well after an initial annealing. In TCtest some modules performed well (Fig. 11) and some failed. Investigations into possible reasons for the failures are currently under way.

Figure 12: Solder joint quality

In addition to the described tests, selected modules haven been taken out of the tests and opened (destructive) to analyse the status of the cell to conductor contact. In Fig. 12 the quality of (good) solders joints before connection (solder bump) and after 2xTCT are shown. before connection after 2xIEC in TCT

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3.1 Full size, 60-cells-modules Motivated by the promising reliability results found for 35µm Cu-conductors, full size, 60-cells modules have been built on the automated module assembly line at ECN employing a 35µm electrolytic Cu conductor and Figure 13: 60 cells module during conductive epoxy Foil System for the Monolithic Assembly to contact the Solland ECN- of Back Contact Modules, 26th European MWTcells. The module is shown in Fig. 13.

< 1.5%.

CONCLUSIONS

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In conclusion it could be demonstrated that contacfoil® is a fully functional alternative to flexible circuit boards or string based interconnection methods for backcontact cells. The foil system supports fully automated module assembly and can accommodate various module designs as it can be combined with a range of embedding materials and can be used with low temperature solders, conductive epoxies and hybrids alike. The conductor materials and thicknesses (resistance) can be adapted to the specified power rating of the module.

5 REFERENCES [1] M. Rees, et al., Large Area Structured

May 2014

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Centrotherm Process And Production Solutions Provide Solar Cell Manufacturers With Significant Cost Reductions And Flexibility For Tomorrow’s Cell Concepts centrotherm photovoltaics AG

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Low-pressure diffusion creates p r e c o n d i t i o n fo r i n d u s t r i a l manufacturing of high-quality emitters

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Highly-efﬁcient bifacial n-type silicon solar cells in mass production

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PECVD process for aluminum oxide coating

Both continued cost pressure and the necessity for efficiency improvements comprised the main topics at SNEC PV Power Expo trade fair in Shanghai. Here, centrotherm presented its solutions that offer solar cell manufacturers expedient options to reduce their production costs as well as boosting process flexibility for tomorrow’s cell and production concepts.

Convincing results with centrotherm lowpressure phosphorus diffusion With its highly productive low-pressure diffusion system, centrotherm is enabling its customers to attain cost savings of up to 40 % per wafer. This is achieved through almost doubled system throughput of more than 140 MW per year and lower media consumption. Even in the case of emitter resistances of up to 150 Ω/square, customers achieve outstanding homogeneity, and can fully exploit efficiency potentials of both conventional and new metallization pastes (emitter resistance > 100 Ω/square). The centrotherm low-pressure technology opens up a broad corridor for new diffusion processes for solar

EQ May 2014

cell manufacturers, especially through the fast and changing deployment of gases in the process tube. Currently, centrotherm low-pressure diffusion systems are already installed in mass production with a total capacity of more than 1.2 gigawatts (GW).

Low-pressure boron diffusion In a joint project with the International Solar Energy Research Center (ISC) in Constance, centrotherm is developing a new low-pressure process for highly efficient boron doping. This enables efficiency enhancement and production cost reduction for n-type solar cells, especially through the integration of upstream and downstream process steps and shorter process times.

New cell concepts for mass production: “BiSoN Alliance” with ISC Constance for bifacial n-type solar cells Together with ISC Constance and SIBCO, centrotherm is offering process and system packages for the mass production of bifacial n-type silicon solar cells that achieve efficiencies of over 20.5 %. All of the processes required for this have been tested in mass production and developed on centrotherm production systems. These cells are optimally designed and compatible for standard solar module manufacturing. The integration of the BiSoN cell concept into existing mass manufacturing is possible due

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additional security and flexibility for the future,” notes Dr. Josef Haase, Senior Vice President Technology Photovoltaics, before adding: “With a track record of more than 2,000 installed systems and the construction of more than 50 turnkey production lines, centrotherm has the world’s largest installed base of PV systems in operation. In addition, most leading producers’ production lines are constructed according to our established manufacturing concept.” With its expertise and experience in thermal processing for the highly-developed semiconductor industry, centrotherm enjoys a wide-reaching technology pool to develop new cell concepts. This allows us to offer our customers solutions that span different industrial sectors. Examples include technology for the atomic layer deposition or texturing from our subsidiary FHR Anlagenbau.

to the deployment of proven centrotherm production systems entailing low investment and time expense. Compared with p-type silicon solar cells, n-type cells possess greater efficiency potential and do not exhibit light-induced degradation. The International Technology Roadmap for Photovoltaic (ITRPV) sees their efficiency rising to over 24 % over the next ten years (p-type mono-Si cells only up to 22 %). According to the ITRPV Roadmap which was published in May 2014, the share of n-type silicon solar cells will also continue to report strong growth from below 10 % today to around 40 % over the coming decade.

“We regard ourselves as a solutionsprovider to the photovoltaic industry. Our customers’ requirements vary greatly. Our evolutionary approach guarantees our customers that centrotherm systems deployed in their production can be upgraded to the latest state-of-the-art with process and hardware upgrade packages from our technicians, or that new cell concepts such as centaurus (PERC) or BiSoN (n-type) can be integrated into existing and new production lines. Along with our systems’ performance, this is a critical factor for our customers’ investments that also offers

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centrotherm PECVD process for aluminum oxide coating (Al2O3) Supplementing its centaurus PERC technology to manufacture mono-crystalline solar cells, centrotherm will also offer a further process and system package for passivation with Al2O3/SiNX stacks in the future. Cell efficiencies can be boosted considerably through avoiding recombination losses and increasing reflectivity on the cell rear side.Upgrade packages for centrotherm PECVD systems will be available for our customers during the second half of 2014. New systems can be ordered from 2015.

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May 2014

SO L A R BO S

Reliable & Rodent Resistant solar cables with Electron Beam Irradiation Technology Dr V K tikku - Apar industries ltd Khatalwada,Dist Valsad, Gujrat, India

PAR constantly coming with innovation cable solution for our valued clients. We find from many of our Solar Cable user that they find that Rodent or Squirrels are damaging PVC outersheath resulting in short circuiting. APAR has come out with Rodent Proof Solar Cables after lot of R&D and this write up is on our Rodent Proof Solar Cables.

The Solution- Solar Power An infinite source of energy available naturally. Diligent research over the last few decades has yielded sophisticated technology to harness solar energy. The successful use of this technology depends on two critical components, viz the solar panels for generating photovoltaic power & the cables to transmit it. The solar power plant requires cables to -

Transmit from solar panels to invertors -DC Cables

Output of invertors to transformer input in the substation -LT Power Cables

Output of transformer to busbar connected to power grid -HT Cables

Out of these DC Cables are in open, exposed to UV rays of sun, easy access to rodents & squirrel & laid up in trays to inverter input. LT power cables may be buried or laid in trays. This DC Cable transferring to inverter DC power at low voltage through Junction/Array boxes have the main features as:

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Cables to have 25 years of life

This matches with life expectancy of solar modules so that a solar firm can operate for 25 years without any disruption due to cable failure. However damage due to rodent & squirrel biting needs to be prevented. We have successfully designed & commercialized the rodent resistant solar cable( described later) first time in India. 46

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Unique Properties

The cables are to be UV & Ozone resistant & also should have Zero halogen & Low smoke properties.

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Contact Resistance

Contact resistance at both ends is to be minimum to prevent loss of power. APAR INDUSTRIES LTD (AIL) (UNIT: UNIFLEX CABLES) has successfully developed such a cable variant, using in-house developed special polymeric compounds & electron beam crosslinking technology, that meets all of these exacting requirements. A product that is unquestionably far superior to the inefficient substitutes that are lining the domestic market, & in fact, completely on par with similar cables that are manufactured & used in some of the developed countries. MNRE, the Nodal Agency in India is looking for reducing dependence on imported items & is looking forward to Indian manufacturers to come up with indigenous products. AIL’s effort is a response to this natural demand

The cable is able to satisfy the latest requirements for PV systems as per TUV Spec No.2 Pfg-1169/08.2007 reference standards & technical characteristics given below.

Applications Flexible cables suitable for•

Mobile & ﬁxed installations

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Connection between photovoltaic panels to junction box / inverter

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Indoor & Outdoor use in dry, damp & wet situations

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On trays & in ducts open closed

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Also meet the weather –UV test

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Exceed the thermal endurance test as per EN IEC 60216 for +120°C (temperature index)

20000 hours at 120°C

Estimated life > 25 years at 90°C

Technical Characteristics & Standards

Salient features of APAR INDUSTRIES LTD electron beam solar cables are as below:

Construction

DC Solar cables for On-Grid/Off-Grid Application –Specification

Electrolytic annealed electroplated tinned copper conductor, class 5: EN 60228/ IS 8130

Conductor

General Description Flexible Single core cable with flexible electroplated tinned copper conductor insulated with special Electron Beam (EB) cross linked halogen free copolymer, low smoke zero halogen EB crosslinked polyolefin sheathed, UV & ozone resistant. Fig 1 shows the cables undergoing process of crosslinking under electron Beam. Available colors of the external sheath: BLACK & RED

Insulation Halogen free electron beam cross linked thermosetting Elastomeric extruded as solid & homogenous

Outer Sheath Halogen free fire retardant electron beam cross linked thermo setting Elastomeric outer sheath, & should have smooth finish Red or Black in color.

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Features Rated Voltage (Nominal) Uo /U Maximum Voltage Ambient operating temp range Max Core Temperature Max short circuit temp Test voltage in water (5min) Min Bending Radius (fixed) No flame propagation No fire propagation Gases Corrosively Smoke Density Halogen free Ozone resistance Chemical & oil resistance Weather resistance UV Estmated Life

Requirement / Standard 0.6 / 1KV or 0.9 / 1.5KV / DC 1.8 KV / DC -40°C to +90°C +120 deg C(for 20000 hrs) 250°C (max 5 sec) 6.5 KV AC/15 KV DC 5 x Cable dia IEC 60332-1-2 IEC 60332-3 cat C IEC 60754-2 (pH>4.3) Conductivity < 10µ S/mm IEC 61034-2 Light transmittance > 60 % IEC 60754-1 (HCL content < 0.5 %) IEC 60811-2-1 & IS6380 IEC 60881-1 EN-ISO 4892 25 years 90°C IEC 60216

Rodent Resistant

Figure. 1. (Wire Irradiation)

A thin corrugated laminated wild steel tape is provided between the insulation & sheath to prevent damage to solar cable & disrupt its operation. We can also provide glass yarn envelope applied longitudinally between the

insulation & sheath. Both of these constructions have been tasted in an external lab & found to be effective in resisting rodent damage successfully. (See Fig 2.)

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Conclusion Thus it is technically evident from above that to meet today’s demanding requirements of higher performance standard of cables such as Solar Cables to TUV 2 Pfg 1169/08.2007 , Apar Industries Ltd has successfully adopted the state of art electron beam irradiation crosslinked technology to meet the direct and indirect ( rodent resistance) needs of our customers and achieve complete satisfaction.

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These cables have undergone TUV testing to specification TUV 2 Pfg-1169/08.2007 & are available commercially.

May 2014

S O L A R M O UN T I N G ST RUCT URE

Dual Axis Sun Tracker With Adjustable Seasonal Tilt For Increasing The Capacity Utilization Factor (Cuf) Of Solar Grid Connected Power Generation Plants R.V.Girish - Director & Ceo Meridian Green energy International Limited

s policy initiatives such a JNNSM by govt. of India has opened up the solar power generation sector and accomplishment of more than 2.3GW of solar installations till date under the policy monitoring by MNRE has invited many global and local investors to look towards solar based generation with never before heard enthusiasm. Solar power has a great potential to achieve solar generated electricity to reach towards grid parity with in this decade, but the industry would grow even at a faster rate if costs could be reduced for both the final products and the capital investment required for scale-up. Solar power developers (SPD’S) in India are able to achieve significant cost reduction in capital required to scale up the large solar power generation plant thanks to reduction in global module prices, Inverter prices and reduction in prices of various balance of system component. But once the month on month generation data start trickling in from various project installations when we make a comparision of actual energy yield v/s projected energy yield even for best radiation locations of India has disappointed many solar developers . This difference cannot be not only attributed to lack of design expertise and selection of technology, selection of EPC contractor & various location challenges in installation and commissioning but also largely due to extreme pressure on SPD’s to bring down the capex to achieve cost of generation of solar based electricity to be able to remain profitable viz-a-viz PPA tariffs as a result of reverse bidding process. 48

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When we review majority of solar installation the natural choice of SPD’s to be advised by project consultants to use FIXED MOUNT STRUCTURES WITH TILT ANGLE AS LATITUDE OF LOCATION to achieve optimum energy yield for the project location. This rationale is quiet agreeable as FIXED MOUNT structures found to be proven track record for good wind stability and low cost and ease of maintenance and also well established vendor base for panel mounting systems and ease of fabrication of FIXED MOUNT structures by local Industries . FIXED MOUNT structures suffer from one disadvantage of low Capacity utilization factor (CUF) commonly used term for solar power plants than the usual Plant Load factor (PLF) used by the power generation industry in India. Capacity Utilisation Factor(CUF) =Energy measured (kWh) / (365*24*installed capacity of the plant).

atmospheric temperature, irradiation, etc. and on the other side is CUF that completely ignores all these factors and also the derating or degradation of the panels. Some more factors that can also be important when comparing PR vs. CUF: -

PR will take into account the availability of the grid, CUF will not.

PR will take into account the minimum level of irradiation needed to generate electrical energy, CUF will not.

PR will take into account irradiation levels at a given period of time, CUF will not

PR can be used as a tool to compare different solar PV systems with each other – even if they are located at different locations since all environmental factors will be taken into account. Therefore only the design and the ability of the system to convert solar energy into electrical energy will be compared with each other.

In the Indian solar context, PLF (Plant Load Factor ) is perhaps the most used term when it comes to measuring a solar power plant performance. The interesting thing is, not many people outside India understand the CUF because most of them use a much better yardstick such as Performance Ratio(PR).

Since CUF is more accepted by the Indian SPD’s for defining performance guarantees and capacity guarantee we will restrict our scope of investigation as CUF is fundamentally a tool necessary for predicting the energy yield pattern

Performance Ratio (PR) of a plant for a period of time =Energy measured(kWh)/ (Irradiance(kWh/m2) on the panel x Active area of PV module(m2) x PV module efficiency)

The CUF projected for financial closures appears to be slightly higher estimate than the reality as it is evident that even best irradiation location like Rajasthan in India has overcast a achievable average CUF of 19% for FIXED MOUNT SYSTEMS.

So on one side, PR is a measure for the performance of a PV system taking into account environmental factors such as

If we look at ways how to enhance the CUF of upcoming solar power generation

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projects one of the possible ways is to look at SUN TRACKER SYSTEMS viz-a-viz FIXED MOUNT SYSTEMS.

Sun Tracked Systems The sun travels through 360 degrees east to west per day, but from the perspective of any fixed location the visible portion is 180 degrees during an average 1/2 day period (more in spring and summer; less, in fall and winter). Local horizon effects reduce this somewhat, making the effective motion about 150 degrees. A solar panel in a fixed orientation between the dawn and sunset extremes will see a motion of 75 degrees to either side, and thus, according to the table above, will lose 75% of the energy in the morning and evening. Rotating the panels to the east and west can help recapture those losses. A tracker rotating in the east-west direction is known as a Single-axis tracker.

The sun also moves through 46 degrees north and south during a year. The same set of panels set at the midpoint between the two local extremes will thus see the sun move 23 degrees on either side, causing losses of 8.3% A tracker that accounts for both the daily and seasonal motions is known as a Dual-axis tracker. There is considerable argument within the industry whether the small difference in yearly collection between single and dual-axis trackers makes the added complexity of a two-axis tracker worthwhile. A recent review of actual production statistics suggested the difference was about 4% in total, which was far less than the added costs of the dual-axis systems. This compares unfavorably with the 24-32% improvement between a fixed-array and single-axis tracker.

of this technology in which single row of fixed mount panels are made to pivot on a single axis in E-W direction with the help of a motor and a tracker controller as per the picture below Horizontal single axis trackers has a advantage of incremental cost additional over fixed mount systems but still suffer from a disadvantage of incremental CUF addition with respect to capex addition as E-W motion alone cannot reduce the irradiance losses and hence CUF addition over Fixed mount systems is marginal. Horizontal single axis sun tracker can initially provide a comfort of small addition in capex to SPDâ&#x20AC;&#x2122;s . Horizontal single axis trackers since placed in rows one behind another compelling to use BACK TRACKING function in controller software to avoid shadow of one row falling on the another row.For a long-term perspective as the life of solar power plant is projected to be 25 years it is prudent to look at achieving higher CUF for incremental capex addition by employing a suitable sun tracked systems. Fr o m t h e Indian context can we have a right balance between increased capex on account of use of SUN TRACKED SYSTEMS to achieve reasonably higher CUF for solar power generation in comparision to FIXED MOUNT SYSTEMS. Jumbo Technologies International Ltd. Hong Kong & Meridian Green energy Pvt. Ltd. India with their design associates in this quest to achieve a right balance between incremental capex addition and significant increase in CUF has looked in to innovative semi automatic dual axis sun tracker solution

of daily automatic tracking in E-W direction and manual seasonal tilt adjustment. Manual adjustment of seasonal tilt does contribute to reduction in CAPEX expenditure coupled with increased CUF on account of dual axis tracking. The array design can have 10 nos of 250W Mono/Poly crystalline silicon solar panels mounted on a tracker frame . and 1MW solar power generation plant require 400 nos of such arrays which will be spread over 6 Acres land area.

INNOVATIVE SUN TRACKER TECHNOLOGY Semi automatic sun trackers combine the advantage of maximum effectives of sun tracking for increasing the energy yield of solar power generation from array and at the same time reducing the cost of sun tracking due to semi automatic function. The semi automatic sun tracker has a daily movement of the sun ( Azimuth angle) managed by a motor driven worm drive mechanism coupled with a seasonal movement of sun (Pitch angle) to be adjusted manually to make use of economical labour avialability. Tracking Mode : To determine the timely corresponding points of the tracking device and sun through the co-ordinated turn of the pitch angle . The different corresponding points during daytime connect together into a tracking curve coinciding with the movement of the sun . The control algorithm employ time control (GPS) .as a major positioning

Horizontal single axis trackers has found few handful solar power developers (SPDâ&#x20AC;&#x2122;s) attention to look at implementation

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May 2014

device to guide the tracker 365 days. Besides these trackers have remote monitoring interfaces, possible to monitor the operating condition of every tracker from any online computer, and could instruct the trackers to adjust its position to achieve the purpose of resisting strong winds.

SPECIFICATION Since the sun trackers to be designed for 25 years life time selection of right kind of materials and processes plays a vital role in assuring the long service life such as Material of the frames: Q235 square tube, hot-dip galvanized >75μthat can guarantee a rust-free period of 25 years , Rotary parts: stainless steel 304, design of maintenancefree, suitable to be used in any harsh weather, Connecting bolts: stainless steel 304 , Transmission parts: transmission of oilingfree gears and hinge-jointed stainless steel rod (or stainless steel cable), requires no maintenance in 20 years. Driving device: worm reduction device covered by aluminum-alloy case, the reduction ratio is 1:50, gearbox, and protection scale: IP65, because the speed of rotation is very low, during its whole life time of 20 years, it rotates only about 20000 rounds, hence it is basically maintenance-free.The electric motor: common 24V/0.9A DC reducing motor with brushes, designed working time: more than 800 hours;

Advantages of automatic Dual axis sun tracker with manually adjustable seasonal tilt •

World Wide Patented Design

•

E-W daily automatic tracking and manual adjustment of N-S seasonal tracking ensure right balance between capex added v/s increase in CUF for the

solar power plant. •

Easy to assemble design with the help of even 4 semi skilled labors on site with simple hand tools and simple scaffolding

•

Quick and Easy installation at site and easy to transport design

•

Overall height of the Tracker not more than 3m hence eases of operation for solar panel cleaning .

•

Long life Bearing design

•

Good wind stability design

•

No Backtracking function required in

controller software as shadow avoidance can be affected by proper selection of centre to to centre distance b/w two trackers in E-W & N-S direction •

Double land usage, the land below the panel area can be utilized for cultivation.

•

Rapid ROI and good payback period



CATEGORY

REFERENCE VALUE

CONTROL

Time

WIND RESISTANCE

32 m/s

TRACKING ACCURACY

< 0.5°

WORKING WIND SPEED

Max 20 m/s

MOTOR POWER

15W/24V X 1

MATERIAL

Hot dip galvanized steel

DRIVE POWER (W)

1 : 560000

MECHANICAL LIFE

POWER CONSUMPTION(Wh/day)

0.005 kwh / Day

MOTOR LIFE

E-W TRACKING RANGE

±60°

OPERATING TEMPERATURE

-40° C to 80° C

ELEVATION ANGLE TRACKING RANGE

45°

CERTIFICATE

FRAME AREA

16 m²

WEIGHT

240 KG

EQ May 2014

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Country Pavilions - Canada, Italy,Taiwan & USA

Panel Discussion by EI Dupont German Key Technology Solution Pavilion Ecobuild Pavilion & Smart Grid Pavilion PV Installation Training Master Class and many more..

8th Renewable Energy India 2014 Expo

Country Pavilions - Canada, Italy, Taiwan & USA

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09-05-2014 12:18:29

S O L A R M O UN T I N G ST RUCT URE

Fastening Solar Panels To Trapezoidal Sheet Metal Or The Upper Shell Of Insulated Trapezoidal Sheet Metal Roofs Cedrik Zapfe Dr.-Zapfe GmbH, Engineering Office for Construction Engineering and Solar Planning

Summary:When planning solar plants on new or already existing buildings, a structural verification of the connection to the supporting structure of the building is to be created. As the solar sector is getting ever more professional, the connections to the roof have to be checked systematically and the results are transferred into computational models.The fastening to trapezoidal sheet metal or to the covering shell of sandwich elements although complex is very attractive from an economic point of view. Especially for air-conditioned halls, shop floors, insulated sandwich elements are a great solution to reduce the power consumption of the cooling system. Until recently, general rules of technology did not regu-late such applications. The local loadbearing behaviour in the direct surrounding of the local connection with product specific experimental tests is evaluated. Apart from the structural verification of the local connections, a complete structural analysis of the trapezoidal sheet metal or the sandwich element considering individual concentrated loads instead of the typical distributed load resulting from wind and snow is also evaluated. Although it is often possible to replicate these observations when the load transmission distances are smaller and purlin distances are bigger, there are often cases where an individual analysis is required. In such cases, calculations according to the finite elements method or the the calculation methods for stud work constructions deducted from the finite element method are the solutions of choice.

1 PREFACE The planning and the installation of solar plants is a core business for electric and solar 52

EQ May 2014

portrait

landscape

Figure 1: one-layered mounting systems

expert companies. This leads to the approach that such installations are regarded as technical building equipment that is subject to rules and standards other than subjects of classical engineering.In the sense of the building law and the building codes of the federal German states, a photovoltaic plant is to be regarded as part of a building or a building itself. As a result of that, the client on whose behalf a solar plant is installed is obliged to adhere to the binding rules of the building code. Apart from the consideration of the local load impacts, verification of structural safety includes the arithmetical verification that the support resistance of the components used is bigger than the load impacts. The verification of usability of building products and types of construction has to be carried out on the basis of the generally accepted rules of technology, for example these include technical standards for steel construction and aluminium construction. If the constructional product under review implies constructional details whose structural verification is not regulated in their accordant technical standards, the product is called a “non-regulated construction product” that must not be used without an approval by the building authorities.

2 Solar fastening systems for roofs with sandwich elements

2.1 Mounting systems The term “mounting system” includes all load-bearing profiles and connection components that are used between the module and the roof covering respectively the supporting roof structure. The direct connection between the mounting system and the roof is created using fasteners. The main task of the mounting system is transmission forces arising at the fastening areas of the module to specific fastening points on the roof and absorbing it into the roof structure. As the module edges and the corrugations of the sheet coincide in only a few places, a mounting system is absolutely essential in most cases. For economic efficiency, a solar plant planner will try to minimize the material that is needed for the mounting system. Figure 1 at the left shows a single-layer mounting system with the mounting profiles run-ning at right angle to the roofing sheet. The vertical orientation of the modules on two load-bearing profiles is often called “portrait mounting”. If the modules are mounted such that the longer side of the modules is perpendicular to corrugations or parallel to the ridge as shown in the figure on the right, this is called “landscape” mounting. Usually, in landscape orientation, the modules are linearly supported on the long side with two modules lying on one mounting rail. Depending on the mounting instructions

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by the module manufacturer, also other orientations are possible. In case of unframed modules which are usually glass-glass laminates, a cross rail system (figure 2) is recommended in order to avoid problems resulting from the elasticity of the roofing sheet. A cross rail system is made up of two layers of orthogonally arranged load-bearing profiles that are fastened meticulously/precisely to the roof. A decisive advantage of this system is that the mounting system for the PV panels can be adapted individually to the supporting structure. Since the material required in such system is almost twice com-pared to a single layer system, this type of system is rarely installed.

Figure 4: Solar fasteners for purlins made of steel and made of wood

in either a wooden purlin or a steel screw into steel purlins. For the transmission of the load into the bars of the trapezoidal

The mounting of such fasteners is rather painstaking and requires a high effort, more time and superior workmanship. Moreover, the position of the fastening points in one direction is determined by the distance of the purlins. This is usually, a material-intensive and costly cross-rail system is required.

2.3 Fastening clamps for the fastening to the crowns of the roof-shell.

Figure 2: Cross rail system

Figure 3: Inclined mounting system

The term trapezoidal clamps or fastening clamps usually stands for form folded highgrade steel parts that fit snugly on the crowns of the trapezoidal sheet metal or the sandwich

Besides roof-parallel solar plants, elevated solar plants are installed as shown in figure 3. In these cases, the modules are inclined using triangular support structures in order to maxi-mize the solar yield per square meter of module area. A shadow distance between the mod-ule rows is maintained to reducing the over-all power generated. The mounting system itself is usually made up of the following components: •

Module clamps

•

Mounting proﬁles

•

Connection elements

•

Fastening systems

The subject of the following observations is exclusively fastening systems for the transmis-sion of forces from the solar PV system into the roof structure.

Figure 5: Fastening clamps Fix2000 and Fix2000 KlickTop according to [2]

sheet metal, often Orkan calottes are used. A decisive criterion of solar fasteners is that horizontal load components are transmitted into the top flange (crown) of the trapezoidal sheet metal. Thus, the bending moment of the screw is minimized.

element. These are clamps are fixedto the inclined surfaces of the trapezoidal sheet metal using self-drilling or self-tapping screws. Figure 5 demonstrates two designs by the Schletter GmbH [2] that have to be adapted specifically to the shape of the trapezoidal sheet metal. The mounting rails

2.2 Fastening solutions to the substructure Solar fasteners as shown in figure 4 are an established fastening system for the transmission of the loads directly into the purlin structure. In the process of mounting, a hole is drilled into the horizontalsurface of the crown and a hanger bolt is screwed

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Figure 6: Direct fastening of solar modules to the roof cladding

May 2014

are either fastened to the trapezoidal clamp from below with a pair of nuts and bolts (Fix 2000) or alternatively with a clamped connection from above using the Klick top. (Fix2000 KlickTop). For the protection of the coating of the sheet metal, usually a loaddistributing separation layer is inserted.

2.4 Direct fastening of the modules to the upper covering shell So long as there is no specified mounting point but a specified mounting area, precise fastening to the roof cladding without mounting rails is possible. In figure 6, accordant mounting solutions for portrait and landscape mounting are shown. With portrait mounting, a connection between two neighbouring crowns (top flanges) is required in order to be able to adapt the module pattern to the corrugation pattern. Figure 7 shows specific products that are fastened to the trapezoid either to one lateral side or to two lateral sides.

Figure 8: Exemplary load deformation curve with test stages

transmission in a sandwich element is a complex load-bearing mechanism that usually is evaluated by experimental tests. In a test series of sandwich elements by 8 different manufacturers [3], the following failure mechanisms (figure 7) could be observed: 1.

Failure of the trapezoidal clamp or a component of the trapezoidal clamp

Figure 7: Trapezoidal clamps SingleFixV and SingleFixHU according to [2] and ClampFit H

3 DIMENSIONING AND STRUCTURAL VERIFICATION

Crippling of the plain cover sheet

Local buckling failure of the profiled cover sheet

Figure 7: Forms of failure with sandwich elements under punctual load In figure 8, a typical load deformation curve of a tensile test is demonstrated. The first phase shows an almost ideal elastic behaviour that is due to the specific loadbearing be-haviour of the trapezoidal clamp. The second phase is characterized by plastic deformations of the trapezoidal clamp. The third, significantly non-linear phase is usually a failure of structural stability of the metal sheet boardings in connection with bearing stress failure of the screws. Only after distinctive ductile deformations, final failure sets in by foam breakage or adhesion breakage. Within the framework of tests for the suitability test, the test body is usually loaded with 5000 stress cycles on service load level, before the static tensile test is carried out to the point of breakage. According to experiences gained so far, the cyclical prestress does not lead to any delamination of the covering layers of the foam.

3.2 Dimensioning according to verification of usability

Figure 7: Forms of failure with sandwich elements under punctual load

3.1 Failure criteria regarding local load transmission The regulations for structural verifications in trapezoidal sheet metal are specified and explained in [2]. Local load 54

EQ May 2014

Adhesion breakage between foam and cover sheet 5.

Foam breakage

6. Bearing stress failure of the cover sheet at the sheet metal screws

With the dimensioning of the connection, the structural verifications of the trapezoidal clamps and the drilling screws can be looked up in the general technical approval Z-14.4646 [2]. The structural verification of the sandwich element under a concentrated load should be regulated perspectively in the general technical approval of the respective sand-wich element. Table 1 demonstrates the dimensioning values for the tensile strength and the shear carrying capacity of the sandwich element FischerTHERM according to [4]. The line â&#x20AC;&#x153;2 screwsâ&#x20AC;&#x153; relates to the fastening system SingleFixV. The verification is carried out on the basis of a linear interaction. Further manufacturers of

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sandwich elements are currently undergoing suitability tests in order to obtain an upgrading of the general technical ap-proval for precise fastening with trapezoidal clamps [5]. The structural verification of the the transmission of shear forces has to be carried out according to the regulations of the EN 14509 [1]. Type of fastening

NR,d [kN] VR,d [kN]

4 screws

2.53

5.13

2 screws

1.70

2.82

Table 1: Rated values of the sandwich element FischerTHERM according to Z-10.4540 [4]

3.3 Overall load-bearing behaviour The overall verification of the trapezoidal sheet metal or the sandwich element is to be carried out according to the the specific technical standards and sets of rules. Here, the limit state of the load-bearing capacity (breakage) as well as the serviceability limit state (SLS) must be observed, with the latter case being decisive in most cases [6]. With most fastening orientations, the grid dimensions of the trapezoidal clamps are consid-erably smaller than the purlin distance. In these cases, the overall verification of the sand-wich element can be carried out in good approximation assuming a distributed load, as the bending moment curve is affine. A specific calculation of the strains only has to be carried out if there is a significant deviation of the bending moment curve under constant load. This can either be done with a frame calculation program, a timber frame model or by means of the finite element method [6], [7].

ď Ž

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S O L A R M O UN T I N G ST RUCT URE

Solar Mega Power Plants; Challenges in Execution Abhishek Kanneganti, GM Planning, Nuevosol Energy Pvt. Ltd.

mongst all the characteristics that can be used to differentiate a developed nation from a developing or an under-developed nation is the notion of “Power Cut”. Power Cuts are the eventual consequences of nations burdened with power deficits. Overcoming the power deficit is a dire need of the hour, and Solar Ultra Mega Power Plants (100 MWs and above) are the best solution possible. This article explores the basic challenges one faces in installing mega power plants, with a special focus on installation of mounting structures.

Mega Power Plants – The Challenge of Land Selection The biggest challenge for a Mega Plant is availability of land. The horizontal area required for the installation of module mounting structures is directly proportional to the output sought. In a traditionally agricultural establishment such as the one that exists in India, and most developing nations, a trade-off of fertile land to provide space for placement of a Solar Plant is an unacceptable proposition. Proven barren lands ought to be the only areas to accommodate a solar plant. However, a majority of such lands put forth newer challenges that include harsh terrain, steep sloping, and varying soil types. Leveling of such lands hikes costs exorbitantly and makes projects unviable.

Following the Contour –Viability, Timelines and Costs Contour following is a novel approach being put forth as a solution by a select few companies that are willing to place structures efficiently tracing the contour of the land while doing so. Contour following is soon going to be a mandatory requirement for every Solar Mega Plant. Developers and EPCs need, however, to be cognizant of the fact that stringent timelines cannot be extended to contour following. Flat, leveled lands are easy to negotiate through; vehicle and human movement is unhindered and hence rapid mobilizations are a rational expectation. Sloped land presents a 56

EQ May 2014

considerable challenge in terms of safety and accessibility to both assets and human beings, thus necessitating an extension in timelines. Leveled lands can hasten timelines without compromising on safety, sloped lands slow down timelines but do not compromise on land area – a trade-off is imminent and the decision is not going to be a simple one.

structures. There is a huge scarcity of the base raw material, as there are very few suppliers for the huge tonnages that we require. Many times there is price escalation and material shortage impacting the timelines of projects. There are random price escalations and material shortages, which form the biggest concern in the industry right now.

Inadequacy of Skilled Workmen; Quality Vs Timelines

Holistic Planning for Execution and Monetary Control.

Lack of skilled labor is another daunting challenge. Solar Power Projects are known to be labor intensive. A vast majority of the contractors operating now are from a civil structures background. The labor employed, however, happens to be vastly unskilled daily-wage earners. . Timelines can be hastened by employing a large number of people and encouraging simultaneous operations. Hastening output, however, from unskilled labor would have a detrimental effect on the overall quality of the product. Most of the solar plants are commissioned to last a full 25 years post-commission, with minor maintenance. Unskilled labor and its propensity for making critical errors, for no other reason than its sheer lack of training and pertinent knowledge, could cause a plethora of issues that would affect both the contingent costs of maintenance as well as the life of a solar plant. Thus, long-term contingencies could far outweigh the shortterm urgency for commissioning a project. Institutes of learning ought to incorporate specific disciplines pertaining to the Solar energy sector to foster growth of affordable and employable individuals to move the sector forward keeping quality intact.

Typical time for construction of Solar PV plants has come down to two months. This calls for simplifying the manufacturing and execution. Planning can be a part of optimization where some highly unexpected bottlenecks can be avoided to ensure timely execution. This calls for thorough understanding of manufacturing bottlenecks and installation hurdles. Planning cannot be decentralized and has to be holistic and in unison with all stakeholders. Planning can avoid Rapid cost escalation, which is usually an eventuality for Mega Plants. Service providing companies start incurring larger costs, costs pertaining to in-site movements of personnel and material. Transportation costs and labor costs, cost previously considered contingent become dominant. The efficiency of product delivery is inversely proportional to the area to be covered, and the only means to tame bottlenecks is by effective planning. All stakeholders need to partake and agree upon a comprehensive plan on paper prior to project mobilization. Excessive delegation and relegation to the service delivery rung would only lead to stalling of work, mainly due to avoidable miscommunications.

Manufacturing Bottlenecks India has to gear up manifold. Steel industry is clearly, not adequately prepared to the supply of raw material, specialized material required for timely delivery for Mega Power plants. The pace at which solar industry is growing requires 2 lakh tonnes of steel supplied to various manufacturing yards only for the purpose of manufacturing solar

Last but not the least, lack of liquidity and pending payments become massive bottlenecks at the lowest rung, these bottlenecks eventually have a domino effect that culminates in project stalling. The banking sector and other financial institutions need to promote better liquidity and allow developers with the leeway to promote percolation down to the project delivery rung.

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SO L A R T H ERMA L

Reduce Fuel Costs For Process Heating Vijendra Bomb COO, Suntrak Synergy

untrak Synergy designed & developed a revolutionary ROOF-TOP solar parabolic concentrator solution for process heating requirements in industries – Hot Air, Hot Water, Hot Thermic Fluid, Steam upto 200°C. Suntrak Synergy claims that the solution is going to be a boon for small & medium scale industries which are feeling the most pinch of the rising fuel costs increasing their process costs.Replacing Diesel, Electricity, Furnace Oil or LPG provides an assured ROI/ Payback within 3 years. In other cases, the ROI may go upto maximum 7 years depending on fuel used and the geographical rates. Their pilot installation is running successfully in an Electroplating industry in Chennai providing substantial savings of about 1000 units each month. The solution directly heats the alkaline solution upto 55 °C and maintains the ∆T for an average 8 hours a day. 1)

Light Weight – Mountable on prefabricated industry sheds eliminating requirement of land & concrete roofs

Highly Modular – Designed as per client requirements delivering required energy only instead of huge minimum size modules existing in market

Tracking – Delivers upto 15%-30% higher efficient outputwith indigenous single axis tracking system

Easy Maintenance – Patented design removes all hassles associated with parabolic concentrator systems resulting in extremely easy & quick maintenance

Warranty – Suntrak Synergy provides performance warranty for their systemsupto the Return On Investment (ROI)/Payback period thus removing all associated risks

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May 2014

I NT ERV I EW

C. Narasimhan Chairman

RAASI GREEN EARTH ENERGY PRIVATE LIMITED EQ : What is the history of your Group CN : Raasi Group is a multi-interest Business Corporation founded in 1978. It is headquartered in Bangalore to leverage on its global reputation as one of the technology centres of the world. Since its founding, Raasi Group has grown from being a Manufacturing House to a diversified and dynamic business group and the company has grown from strength to strength to be recognized as a leading business corporation across the four verticals Manufacturing, IT Services, Insurance and Financial Services and Renewable Energy (Solar)

EQ : Inspiration behind setting up Raasi Solar Park CN : Globally, Energy Security and Climate Security concerns are growing and many countries have realized the need to find solution to both the burgeoning problems in Renewable Energy Resources. India was one of the earliest to realize the potential of the clean, abundant and freely available solar energy and invested in creating an infrastructure to grow this segment. We are now amongst the top solar countries having already installed over 2.5 GW of solar power plants under the JNNSM and state programmes like Gujarat. However considering that our per capita electrical consumption is just about a fifteenth of what the US consumption is, we have to rapidly increase energy generation to catch up with the developed world. Solar energy has a huge role to play in our quest to build a robust economy and to be counted amongst the powerful nations. Realizing the role of solar energy in shaping India’s future, Raasi Group established RGEE with an intention to take part in the solar revolution that is slowly but steadily taking place in India. RGEE recognized very early that while technical expertise in designing and building solar power plants were available in our country, necessary understanding of the complex and multiple policies, regulatory measures and others needed to acquire project sites and get

EQ May 2014

all statutory clearances to execute large solar project were lacking. Keeping this in mind RGEE decided to set up a solar park at a place that receives high solar radiation for most part of the year and identified a site in

Ramanathapuram District, Tamilnadu. RGEE is getting all necessary clearances and setting up the necessary infrastructure including power evacuation. RGEE welcomes investors, ESCOs and RE companies to set up power plants upwards of 1MWp in this well connected site.

EQ : Enlighten our readers with your Vision, Mission, etc… CN : Our vision is to be the largest Solar Park Developer in India and one of the top generators of solar power in India by 2020. Our mission is to develop solar parks with all necessary statutory clearances, infrastructure and support services and offer them at competitive prices so that investors are attracted to set up solar plants which would benefit them and the society. We are driven by our core value to achieve our goals through quality and integrity. We are committed to protecting the environment and to follow ethical business practices. We would be partnering with leaders in the field to bring the best technology and practices so as to deliver maximum value to the customer.

EQ : What are the features/ amenities/advantages you provide investors for setting up Solar Plants in your Park? CN : RGEE has been working on the development of the project since 2010. The

600 acre park, located in Paramakkudi Taluk in Ramanathapuram is well connected by road through NH87 and SH 28. The location has on an average, over 300 clear sunny days. The park is being set up as a multi developer, multi technology project with a minimum project size of 100KW. Major statutory clearances have already been obtained. TANGEDCO’s 230/110 kV Sub-Station is located close to the site and a central evacuation facility is being set up in the park. Boundary wall around the park would be provided to enhance safety of the plant. All support required to get statutory clearances for individual power plants would be extended.

EQ : What kind of Investors/ Companies would be attracted to consider investing in Solar Project in your Park? CN : Raasi Green Earth Energy (RGEE) welcomes investors with project allocations under government schemes like JNNSM and those outside of it, investors who want to take advantage of the government incentives for investment in renewable energy, obligated entities and ESCOs. We currently have investors who want to avail ‘Accelerated Depreciation Benefits’ (ADB) under which the investor can claim depreciation up to 80% in the first year. Also we are housing those who are bound by the Tamil Nadu government’s ‘solar purchase obligation’ and those who are bound by Central government’s ‘Renewable Energy Purchase Obligation’. Companies wanting to reduce their carbon foot print and those

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corporations who would like to contribute to the transition to sustainable technologies are also welcome to invest. Raasi 100 MW solar park has been developed to house projects under all schemes.

EQ : Kindly share the Solar Resource Assessment Study of your Park. CN : The park is located in Kavanoor in Ramanathapuram district in southern Tamilnadu with the co-ordinates: 9°29’20.20”N, 78°33’11.51”E. It has over 300 clear sunny days and receives an average radiation of 5.48 kWh/m2/ day (Meteonorm). Estimated power generation is 1.6 Million units per MW per year.

EQ : What are the challenges an investor faces while setting up solar plant independently CN : Solar Energy is no longer a foot note in the overall energy planning of the country. Obligated entities, companies wanting to reduce carbon foot print and others seeking investment opportunities all see investment in solar projects attractive However investors are aware of the hurdles involved in establishing a solar power plant with the main one being ‘land acquisition’. Identifying large tracts of non-productive land for setting up power plant with reasonable infrastructure and acquiring it without hassle is really a challenge in today’s world. RGEE, at present, has 600 acres of land earmarked for this park. The other major hurdle faced relates to the ‘evacuation facilities’ for the generated power. Cost of establishing a power plant runs into crores of rupees and when the generated power is not evacuated daily, it would lead to huge loss. RGEE has established evacuation facility at its own cost and this should not be a concern for the developers. All issues that could potentially hinder the execution of the project are all taken care by RGEE and the investors with out any hesitation can invest in the developed solar park and execute the project at the shortest possible time. Operations and maintenance of the plant again could be a major concern for the developers if a dedicated team is not set up. RGEE will provide O&M services on 24 x 7 basis with their own expert team.

EQ : What are the various options/

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packages/inclusions you offer to investors? CN : We are offering four options as explained below: a. Own Plant, Own EPC & Own Funds – In this option, the investor comes to us with their chosen EPC partner, their own finances and we will be happy to facilitate land, plant design, permits and evacuation of the power solar plant to the developer. The plant could be set up in a very short time. b. Own Plant, Own Funds, & RGEE EPC- In this option, the investor comes to us with his own funds to set up solar power plant meeting his requirements. We provide land, design, permits and evacuation facilities and also assist the solar plant developer with our EPC partner. c. Own Plant, Own EPC & RGEE assisted Funds- Setting up a solar power plant requires high initial investment and to get financing, several conditions are to be met. It would take months of efforts to get funding. To such of those investors who do not want to go through the rigour that is demanded for getting financing, RGEE extends support to investors to get funding at reasonable cost. We have tied up with a couple of reputed non-banking financial institutions who will be happy to assist solar plant developer in raising funds; under their terms & conditions. Also, this offer is limited to only those developers who are ready to be a part of RGEE Solar Park. d. Own Plant, RGEE assisted EPC & Funds- Solar plant developer wants to own plant but without any hassles attached to it. RGEE has tied up with a company who will come in with their EPC services and invest up to 70%. By choosing this option, solar plant developer will not lose ownership, equity nor will solar plant developer lose his discretion regarding design, specification or technology. Developers are free to negotiate solar plant developer terms and conditions with their chosen vendors. Again, this option is available to only those developers who will be setting up their plant in RGEE Solar Park.

EQ : Kindly enlighten our readers on the various policy initiatives by government under which solar plants could be set up in you park CN : Any commercial entity can set up park with us. Till date we have had queries from both independent companies and groups

of small companies that are desirous of forming a collective to purchase power in a big way. Investors with interest in getting long term returns have approached us for setting up plants under various the following schemes: • Tender

Projects under Tamil Nadu

• JNNSM both Phase I and Phase II projects. • REC Projects, (Group Captive/ APPC/Third Party) • Accelerated Depreciation Based Projects.

EQ : Have you installed a pilot project etc… to demonstrate the Performance, Generation etc… CN : A test bed of 100KW is already under execution and another 30MW project will be soon set up for one of our clients. We have received Expression of Interest for projects totalling over 260 MW under various schemes.

EQ : Kindly share your opinion on the Tamil Nadu Solar Policy, Market, Policy & Regulatory aspects hindering the growth of Solar in TN. CN : Tamil Nadu Policy when it was announced in 2012 created excitement that was next only to the excitement the JNNSM announcement generated. With a target of 3 GW to be installed over three years with Solar Purchase obligation of 6%, it appeared that Tamil Nadu would be the next growth engine for solar. However the differing rates fixed by TANGEDCO and TNERC came as a big set back. Petition challenging the solar purchase obligation in the appellate tribunal and TNERC’s handicap with out being fully constituted resulted in the holding up of the ambitious TN Solar roll out. RGEE is providing all back ground material and suggestions to authorities and leading the efforts to the successful implementation of the TN solar programme under existing TANGEDCO tender and the revised 2% RE obligation. RGEE is committed to contribute to the success story of solar not only in Tamilnadu but in the country as a whole.

May 2014

REN EWA BL E ENERGY

Renewable Energy Financing in India: Challenges and Solutions Chirag Mehta - Director, Clip Financial

nergy is amongst the most important levers of economic growth and absolutely vital to the sustenance of a modern economy.India, however, faces formidable challenges in meeting its energy needs and providing adequate energy of desired quality in various forms to users in a substantial manner and at reasonable cost. With a production of 1,006 TWh, India is the fifth largest producer and consumer of electricity in the world. Inspite of this, according to the World Bank, roughly 40 percent of residences in India are without electricity. The economic impact of power cuts is crippling. Shortage in power supply has resulted in industries across the country being asked to slow down their manufacturing or even shut factories for a certain number of days in a month. The fear of regular electricity cuts is forcing many businesses to install their own power generation or power back-up units. That is not only increasing their capital costs, but also adding to their operational expenses. Electricity generated by these units is up to 100% more expensive than that supplied by the regular grid.This is because the majority of these back-up units generate electricity using diesel, which is more expensive than power generated from coal. It is difficult for the industry to operate on generators for long hours as profit margins dip drastically To give an example of the economic impact of power shortage let’s look at the case of the industrial hub of Tirupur. According to a media reports, Tirupur exports knitwear worth Rs 13,500 crore per year which is expected to fall to the extent of Rs 5000 Cr if the power crisis continues for long. Tirupur faces power outage that lasts for more than 10 hours per day. The government targets capacity addition of 88.5 GW under the 12th Five-Year Plan (2012–17) and around 100 GW under the 13th Five-Year Plan (2017–22). Investments of around

EQ May 2014

USD223.9 billion are planned for the power sector during the 12th Plan FiveYear Plan to bridge this gap. The total demand for electricity however continues to rise and though some large scale power it requires a significant initial CAPEX, followed by minimum variable ongoing cost. Hence successful commissioning of renewable projects depends heavily on adequate financing of the projects.

projects have been commissioned the demand far outstrips the supply.

Case for Renewable energy India currently meets its power requirements by primarily using conventional resources with renewable sources adding to only 12 % of total power.

What is stopping the rapid growth of Renewable Energy? There are multiple challenges the industry is grappling with. The reason why renewable energy is not an automatic choice and has to depend on government subsidies is the high cost of power as compared to conventional sources.Secondly, the challenge in a Renewable energy power project is that

The cost of producing a unit of electricity has been coming down rapidly. In the case of Solar the cost of PV modules, which is the most significant cost has shrunk dramatically over the years.But the problems related to financing solar projects persists.

Challenge of ﬁnding adequate ﬁnancing A variety of investors finance renewable energy projects in India. These include institutions, banks, and Equity investors.

1. Banks have slowed financing Access to debt has become difficult now and is likely to become even more difficult in the longer term for several reasons: •

Banks have sector limits to limit their exposure to any one market, sector, or technology. As renewable deployment increases, more banks are nearing their sector exposure limits.

•

Further, most banks in India include renewable energy in their power, utility, or energy sector limits. These sectors have heavy borrowing demand, to the point that many banks may have been near their limits even before lending to renewable energy could begin. • While many banks have sector limits, others will not lend to the renewable energy sector at all due to the novelty of the sector, immature technology, and uncertain regulation. • Banks cite non-familiarity with the renewable energy sector as well as the

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Energy source

CAGR (in %)

Nuclear

3.9

Renewable

20.9

Hydroelectric

1.9

Thermal

13.7

perceived riskiness as the major reason for not lending to renew¬able energy projects. Even among banks that lend to these projects, the amount is restricted due the reasons discussed below. .

2. Development Finance Institute have limited funding ability The Development finance institute (DFI) in the renewables space is Indian Renewable Development Agency (IREDA). IREDA, the investment arm of the Ministry of New and Renewable Energy (MNRE) is a government agency that offers loans to renewable energy projects at favorable rates compared to commercial lending. However, the scale of IREDA is small compared to the challenge of financing Indian renewable energy ambitions. Other DFIs like SIDBI etc. have specialized schemes but they address much smaller section of the ecosystem.

3. State Level Issues One of the bigger challenges this industry is facing is working with the State electricity boards (SEBs). Banks are concerned about the financial health of the SEBs as they typically act as counterparties to most PPAs signed by renewable energy developers. In fact there are several states where it has become harder to get loans due to the risk associated with the poor finances of the SEBs. Also the limited availability of evacuation infrastructure and grid interconnections is a big state level obstacle to harnessing renewable energy potential. Many economically attractive renewable projects are suffering because of lack of adequate grid evacuation capacity and approach roads.

4. Cost of CERs have fallen substantially Sale of Carbon credits generated from renewable energy projects was an additional revenue stream for these projects. However the selling rate of CR has fallen substantially in the market owing to a supply demand mismatch. This is another factor that has

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further impacted the revenue generation capability of these projects making debt financing difficult. Than how to raise capital for these projects?

1. Balance Sheet funding Financial institutes are more comfortable providing balance sheet funding. In this case the risk of the project is spread over the entire balance sheet (i.e. other allied businesses) of the developer. This gives banks the recourse to the parent company of the project developer. Developers can extract a signifi¬cant premium for balance sheet debt at the parent company level over project debt, because of the lower risk to the parent. Project level funding get approved mostly if it is backed by a reputed promoter who is ready to give a guarantee. Moreover this is more suited for small MW size projects where the end goal for the promoter is investment and not generation of power. Hence, marginal projects from smaller, unconnected developers find it more difficult to raise capital.

2. PE/VC Despite a lull in private equity investment in infrastructure, interest in renewable energy remains high. At least half-a-dozen international financial investors and a score of PE funds, are scouting for asset-level deals. Apart from financial investors, international firms are also looking at strategic investments in India, while domestic companies are considering options like mergers to achieve critical scale. However, international strategic investors are unlikely to acquire 100% stake in Indian portfolios as they are wary of the risks of land acquisition, permits and construction in India. Hence the trend is for investors and developers to acquire majority or controlling stake in projects especially with sound PPAs. The renewable power space saw 32 private equity (PE) and merger and acquisition (M&A) deals worth $1,288 million in 2013 against 14 deals worth $298 million in 2014 so far.

3. External Commercial Borrowings (ECBs) Sourcing debt from foreign lenders especially from the EXIM banks of the countries from where the equipment (for

the renewable project) is being procured has become quite popular. This is a very effective way of financing as the rate of interest for a foreign currency loan is significantly lower than Interest rates prevalent in India on term loans. However with currency fluctuation and high cost of hedging ECB market has dried up to a large extent.

4. DFIs like IREDA and SIDBI SIDBI has schemes like JICA-SIDBI Financing Scheme, KfW-SIDBI Financing Scheme and the Sustainable finance Scheme (SFS)through which they provide loans to:

1. MSMEs planning to invest in : •

Energy saving investments in plant and machinery / production processes in order to reduce carbon footprint and enhance Profitability.

•

Cleaner Production and emission reduction measures, waste management and Common Effluent Treatment Plant (CETP) facilities.

Energy Service Companies (ESCOs) providing solutions for renewable energy

Original Equipment Manufacturers (OEMs) which manufacture energy efficient / cleaner production / green machinery / equipment for MSMEs

Panel Financing

Select EPC providers have back end panel financing arrangement with EXIM banks or financial institutes. They help arrange panel financing which is amongst the most significant cost in a solar project at attractive sub 10 % levels. However the catch obviously is that they expect the developer to award them the EPC contract. To summarize, financing renewable projects is difficult but not impossible. What’s required is the right strategy and the knowledge to approach the relevant financial institute. Additionally many government incentives and subsidies are available that cushion the cost of setting up a renewable project. India currently offers incentives like feed in tariffs; generation based incentives; renewable purchase obligations (RPOs); central, state, and regional capital subsidies; accelerated depreciation; and tax incentives. A judicious approach would definitely see the developer being successful in the medium to long term. 

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May 2014

REN EWA BL E ENERGY

Fiona Le Poidevin – Chief Executive, Guernsey Finance

Guernsey – Financial Services For Cleantech Projects

uernsey is an island situated between the United Kingdom and France which is seeking to harness some of the strongest tides and winds in Europe to provide tidal power and offshore wind production. However, the island is also a leading international finance centre and as such, it can provide a wide variety of financial services solutions to cleantech projects not just in Guernsey but around the world, including those in India.

heritage in providing financial services to clients around the world. This experience has helped a finance industry with significant depth and breadth through four key pillars: •

31 licensed banks, ranging from leading international banking groups to boutique private banks, holding US$138 billion of deposits.

•

150 licensed providers of wealth management services for high net worth individuals and families.

•

50 investment fund managers, administrators and custodians servicing more than 800 Guernsey domiciled funds and assets valued at nearly half a trillion US Dollars.

•

20 international insurance managers providing a range of risk management solutions, including captive insurance – the Island is the largest captive insurance domicile in Europe and fourth in the world.

The island Guernsey is a British Crown Dependency, which means that it is independently governed and this offers political and economic stability. The Island is situated within Europe geographically but it is not part of the European Union (EU) where there is a special relationship. Its location means that it is in close proximity to both the London and other main European markets and in a time zone where business can be conducted with India and the Americas during the same working day. Guernsey also offers the comfort of being English speaking and using the British pound Sterling.

The international ﬁnance centre Guernsey has more than 50 years’

EQ May 2014

It is this infrastructure and expertise which means that Guernsey is ideally placed to provide financial services for each stage of the cleantech lifecycle.

Investment funds Guernsey is one of the major global investment fund domiciles andas such, is an ideal option for investing in existing cleantech projects or for a new cleantech venture seeking finance.

The island has a thriving investment fund and private equity industry and Guernsey domiciled and administered funds hold investments in a wide range of cleantech assets including wind, solar, wave and forestry as well as in technology which seeks to reduce the impact on the environment in the form of emissions and waste. Guernsey’s regulator has significant experience of understanding investment fund structures and with the island being outside the EU, it is able to provide a flexible and proportionate regulatory regime. In addition, Guernsey is tax neutral for investment funds which means that tax is only paid by investors in their home country. Many major investors are familiar with the island and some of the cleantechindustry’s biggest investment houses have Guernsey domiciled clean energy funds. An example of a Guernsey fund with a focus on clean technologies is the Indian focused Mytrah Energy Limited (see box). Guernsey has an advantage as a domicile for cleantech as it can demonstrate substance already present in existing structures. A number of major fund managers have offices and staff present in the island and there is a large pool of qualified non-executive directors, many with broad industry experience and specific energy and cleantech experience. The desired fund structure for any cleantech project will often be dictated by the requirements of investors, but consideration

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should also be given to whether the structure will remain optimal as the project proceeds and, indeed, the most appropriate exit strategy should be established at the outset of the venture.

Project ﬁnance Guernsey can provide a variety of potential sources of project finance. More than 30 international banks operate in Guernsey plus there is a wide community of wealth managers who undertake to meet their clients’ demands for suitable investment opportunities that have an environmentally friendly remit. Securitisation vehicles are a popular way to finance cleantech projects and Guernsey vehicles have long been used to provide much needed finance within structures for startup capital as well as for on-going capital requirements. Guernsey securitisation vehicles are legally robust, tax efficient and can be established and operated in an efficient way. Also, the ability to float companies on international exchanges may prove beneficial to a cleantech fund since a stock market launch may provide early investors with an exit route from the project as well as provide access to further capital investment. Guernsey companies can list on the London Stock Exchange (LSE), Euronext, Hong Kong, Toronto, Australia as well as the local Channel Islands Securities Exchange (CISE), amongst others. A number of Guernsey cleantech vehicles have been utilised to access various stock exchanges and most notably the LSE where data shows that there are more Guernsey entities listed on its three markets than there are vehicles from any other non-UK jurisdiction.

Therefore, it is important that any cleantech team understands the risks that will arise during a project’s lifecycle. However, the traditional insurance market largely operates by rating risks according to past experience but cleantech projects are, by their very nature, new and speculative ventures, often run by pioneering entrepreneurs. This means that the traditional market underwriters will rate conservatively and potentially charge a greater premium than the actual risk might warrant. Premiums charged by the traditional markets are also subject to market forces, and the loss of a similar, perhaps competing, project often leads to increases in premium. This increases the appeal of captive insurance, where Guernsey has specific expertise, and is ranked first in Europe and fourth in the world. A captive insurance entity is a vehicle owned by the cleantech project, which would write and retain some, or all, of the risks arising from the project. It provides an innovative solution for new risks that are not readily insurable or are prohibitively expensive to insure on the open market. The use of a captive insurance company can help to reduce the overall insurance spend and bring greater certainty to the insurance budgeting process.

Intellectual property (IP) protection

Recent listings by Guernsey funds on the LSE include the Bluefield Solar Income Fund and The Renewables Infrastructure Group (TRIG), with the latter fund raising over US$500 million on its floatation, which Bloombergreported at the time as the largest clean energy IPO in London.

The key IP rights relevant to cleantech typically include patents and confidential know-how for the protection of inventions, design rights for products, copyright and database rights for the protection of software and information systems and also trade marks for the protection of brands. Guernsey law recognises and gives protection to the full range of IP rights through a suite of legislation primarily based on UK and EU laws and models designed to be compliant with the World Trade Organisation’s Agreement on Trade-Related Aspects of Intellectual Property Rights (TRIPS).

Insurance and managing project risk As with any start up project, insurance will be a key requirement for a successful cleantechproject. Without access to reliable and cost efficient insurance cover, it can be hard to secure the third party funding to develop an idea through to a finished product.

Guernsey also has common laws of confidentiality and passing off and there are proposals for the introduction of utility models (or petty patents), which are easier to obtain than patents. Furthermore, Guernsey has the flexibility to quickly adapt its IP laws to meet changing market requirements

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through a shortened legislative procedure for IP laws. Guernsey also has the advantage of not being bound by EU requirements, enabling it to pick and choose the most advantageous combination of legal protection for IP rights. Against this backdrop of a solid and innovative IP regime, the key advantage that Guernsey has to offer is as a jurisdiction in which to hold or license both Guernsey and non-Guernsey IP rights. As well as using a standard Guernsey company as an IP holding company, Guernsey offers the option of using its innovative cell company structures where different bundles of IP rights can be held in different cells of the same company.

Why Guernsey? In conclusion, we can see that Guernsey offers an environment which allows for the provision of financial services solutions to meet the needs of cleantech projects during the different stages of their lifecycles. The Island is able to differentiate itself from the competition by the fact that it has such a broad offering but also one with significant substance. In addition, Guernsey’s robust yet pragmatic regulation provides security but also allows innovation and its tax neutral status offers fiscal advantages alongside a regime which respects client confidentiality but also meets international standards of transparency and exchange of information. Furthermore, the quality of service obtained is a real differentiator in Guernsey’s favour as compared to its competitor jurisdictions.

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May 2014

REN EWA BL E ENERGY

Overrated Depreciation & Hyped REC failure Sankalp Ved , Head – Renewable Energy Business Ruchi Soya Industries Ltd.

ovt. of India almost abruptly discontinued accelerated depreciation for wind energy sector w.e.f. 1 April 2012. The reactions started coming in from all across where in almost all industry experts were found contesting to be louder to showcase the demise of the wind sector post AD withdrawal, which actually is not the fact. Although the installation numbers an year after this event fell down from 3196 MW to 1700 MW, this drop of about 46% made everyone to think in straight line and blame withdrawal of AD as obvious reason which in not the fact.

always been linked to general industrial growth & GDP in country as well as interest rates. *Source: Public web sites, Average approximate numbers taken A close observation of above graph clearly indicates that when GDP peaked at 8.5-9% in 2011-12 the wind installation also peaked at 3196 MW and during that year the average PLR was relatively very low (below 12%) in comparison to other preceding or forthcoming years.

Incidentally, in USA production Tax credit (PTC) is key driver for the wind project & AD benefit in India was introduced almost in same line (in different format) to promote renewable energy. When in USA with expiry of PTC the installation almost dried by 90%, in India the impact was not so intense when AD was withdrawn.

Some factors which affected the general fall in number are as follows: 1. Withdrawal of Generation based incentive: Along with AD the benefit of GBI was also discontinued. This was simply direct cash benefit to investor linked to the generation.

2. Policy issues: Incidentally, post March 2012 some states which has potential for wind installation, some or the other issues in the policy & regulation which created hindrance for development, e.g. Gujarat policy was expired during that time, New wind tariff of MP was to be declared, PPAs were not getting signed in Maharashtra, Captive use of power was not being permitted in Rajasthan, Andhra Pradesh Policy was delayed.

3. General Slowdown: History suggests, with our without depreciation the wind development has 64

EQ May 2014

Reduction in GDP & increment in landing rates have adversely affected installation in last 1-2 years.

Hype about REC market failure Collapse of the REC market was the buzz word in last 2 years. There is no doubt about it that REC market was not as successful as it was anticipated but actually it was not meant for such ‘desired’ success. Putting a Solar project at Rs. 7 Cr. / MW, selling power to third parties at Rs. 5 / unit plus getting REC revenue of Rs. 9.6 / unit and finally enjoying AD benefit on the project is something which is absolutely impractical. Above numbers if achieved can give IIR as high as 50% which can never be long term story. Actually, 31% of Solar REC & 41% of Non Solar REC issued in FY 12-13 are sold. But % clearance looks very low as there is inventory lying for previous years.

Commercially, it was not poor proposition for investors. However the real worry of investors is uncertain future which is a genuine threat. It’s high time for Govt. & regulators to rationalize the REC floor prices and make them realistic which would help in higher clearance of volume. Investors revenue (due to increase in volume) even after drastic price cut would not be affected on the contrary it should bring in stability in the market and eventually confidence of investors as well as lenders. It would be very illogical to conclude that REC story is over. Infact there is other side of this story which indicates a bounce back & even broader coverage in coming years which will be supported by increment in utility tariff (& eventually higher realization) and conclusive development in the enforcement of REC by various Regulators Growth in Captive Market: In last 5 years share of captive/Group captive wind energy installation as % of total installation is almost doubled. By tying up wind power for captive purpose the power cost of the factory / Production is frozen for 20 years. For instance, In Tamil Nadu MP & Gujarat the in 2007-08 the industrial tariff were in the range of Rs.3.3-3.5/unit. Today it is Rs. 5.5-6/unit, this tariff coupled with ‘little’ clearance of RECs makes viable sense for investor to add capacity.

Conclusion: There is no reason that India will not able to touch the 15000 MW targets of current 5 years plan. Delay in reinstating AD in wind sector can affect only to limited extent and REC market will continue to bear fruit for investor.

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Panasonic Corporation

anasonic Corporation today announced that it has achieved a conversion efficiency of 25.6% (cell area: 143.7 cm²) in its HIT® solar cells, a major increase over the previous world record for crystalline silicon-based solar cells. The previous record for the conversion efficiency of crystalline silicon-based solar cells of a practical size (100 cm² and over) was 24.7%, as announced by Panasonic in February 2013 (cell area: 101.8 cm²). The new record is 0.9 points higher and the first to break through the 25% barrier for practical size cells. This new record is also an improvement of 0.6 points over the previous record for small area crystalline silicon-based solar cells (cell area: 4 cm²) of 25.0%. The achievement of this new record was made possible by further development of Panasonic’s proprietary heterojunction technology to realize the high conversion efficiency and superior high temperature properties of the company’s HIT solar cells as well as adopting a back-contact solar cell structure, with the electrodes on the back of the solar cell, which allows the more efficient utilization of sunlight.

to realize a high temperature coefficient of -0.25% per degree Celsius which is able to maintain a high conversion efficiency even with high open circuit voltage (Voc) and at high temperatures.

2. Reduction in optical loss In order to increase the current in a solar cell, it is necessary to lead the sunlight which arrive at the cell’s surface to the monocrystalline silicon substrate, which is the layer which generates the power with less loss. Placing the electrodes on the reverse as back contacts allows the light to reach the substrate more efficiently. This has led to a marked improvement in short circuit current density (Jsc) to 41.8mA/cm² over Panasonic’s previous figure of 39.5mA/ cm² (in the case of a cell with a conversion efficiency of 24.7%).

3. Minimizing resistance loss

current is accumulated in the surface grid electrodes and output externally. Previously, the grid electrodes on the light-receiving side were optimized by balancing the thickness of the grid electrodes (thinning the grid electrodes to reduce the amount of light blocked) and the reduction of electrical resistance loss, but by placing the electrodes on the reverse side, it has become possible to reduce the resistive loss when the current is fed to the grid electrodes. In addition, a high fill factor (FF) of 0.827, has been achieved, even at a practical cell size by improving resistance loss in the amorphous silicon layer. Going forward, Panasonic will continue to pursue technology development of its HIT solar cells, aimed at realizing higher efficiency, lower costs and the more efficient use of resources, and will work towards mass production.

In solar cells, the generated electrical

Outline of the core technologies behind the record conversion efﬁciency 1. Reduction in recombination loss A key feature of HIT technology is its ability to reduce the recombination loss of charge carriers, particles of electricity generated by light, through laminating layers of high-quality amorphous silicon on the surface of the monocrystalline silicon substrate, where power is generated. By utilizing the technology to form a high-quality amorphous silicon film on the monocrystalline substrate while minimizing damage to the surface of the substrate, it has been possible

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May 2014

RESEA RCH & D EV EL O P M EN T

Panasonic HIT® Solar Cell Achieves World’s Highest Energy Conversion Efficiency of 25.6% at Research Level

T r a n s mi s s i o n & D i s t r i b ut i o n

Smart Metering- Powering Energy Conservation Through M2M Technologies M2M Technologies

nergy conservation and ecofriendliness has taken centre stage in the world around, even as the energy resources are depleting day by day. Add to that the environmental concerns of global warming and increasing green house gases, the problem seems ever increasing in nature. Nations and corporations across the globe have energy conservation high on their social and economic agendas. They are trying out various ways and means to conserve energy and produce clean energy. While clean energy seems to be a natural option, it will take many years before they become mainstream and find unequivocal adoption. But the fact is that there is too much ambiguity and far too much cost involved to economically sustain alternative energy sources as the prime source of energy. However, even with alternative energy coming into play, the key to energy security and a cleaner environment is conservation of energy. But most importantly, it is about the most efficient and optimal usage of energy which surpasses every other concern that we may have. The main reason behind is that the alternative energy today is considered to be a costlier alternative to conventional energy sources albeit with significant long term economic and environmental benefits. And if the power generated by alternative sources is not consumed in an accounted manner, the cost of funding such projects will grow manifold making alternative sources of power a distance reality. With the recent release of Smart Grid Roadmap of India, by Ministry of Power, Govt. of India, the Energy market in India is poised to grow at an exponential rate over the next couple of years with a good mix of M2M connectivity technologies that are available from Telit. Besides that, the government has also decided to dole out tariff subsidies for consumers reducing the burden on utilities and making alternative power affordable for consumption. However, in spite 66

EQ May 2014

of these efforts one of the key concerns that the government has in mind is the issue of optimal energy usage without any wastage or unaudited usage of energy.

level of power distribution transformers and feeder lines to measure the energy fed and billed back by the utilities that in turn helps monitor & minimize the T&D losses.

One of the key aspects that will make the governmentâ&#x20AC;&#x2122;s plan to provide power grid based areas and off grid areas with nonconventional sources of energy is proper accounting/ auditing of the power being consumed. Amongst the primary reasons are pilferage and wastage of energy due to theft and technical power losses. Even if the government provides power to offgrid areas with non-conventional sources of energy, the key concern of the government would be to ensure that power usage is fairly balanced between power generation costs and revenues. If it is unable to check this aspect most of the projects envisaged by the government may start to seem untenable.

One of the key technologies that is helping drive this conservation initiatives across the globe is adoption of smart metering concepts that are being powered by M2M (Machine-to-Machine) technologies.Telit is also participating in the upcoming Smart Grid & Smart Metering initiatives by the Govt. of India. Leveraging our core M2M expertise and wide product portfolio of 2G, 3G, LTE, CDMA & Short Range modules, Telit is able to offer an end-to-end solution for the entire connectivity needs of the utilities.

Same holds true for the conventional sources of energy. Today, only about 60% of the power generated by the country reaches the consumer. Nearly 40% of the power generated is lost due to inefficient transmission technologies and theft. If the scenario remains unchanged with alternative sources of energy kicking in, the scenario would not be any more different. Apart from these aspects, there is also a lack of understanding and awareness amongst consumers in terms of efficient usage of the power that reaches their homes further adding to the woes of energy conservation. Though Transmission & Distribution (T&D) losses are not unique to India, it has global precedence as well, the key aspect besides creating awareness amongst consumers on efficient usage of power is that technological interventions need to be put in place to alleviate these issues to a great extent. Telit has been actively participating in the govt. driven R-APDRP program wherein we have successfully deployed thousands of M2M modules in field by the way of AMR modems through our OEM/ODM partners. The modems are primarily installed at the

M2M technologies, which combine sensors and applications that leverage the power of the available wireless (GSM/ CDMA/ Zigbee) networks to help machines communicate with each other are driving the evolution of smart metering concepts across the world. M2M technologies are not only helping utilities become economically more viable but are also making consumers aware of conservation techniques that could help bring down their energy costs. While consumers also benefit from the adoption of such technologies, the utilities benefit the most by getting access to data and information that was otherwise not possible. Adoption of smart metering technologies powered by M2M technologies not only provides them with almost real time data and information but also provides significant visibility into their energy auditing process, helping them account for almost every ounce of energy consumed. This not only helps them monitor the usage patterns but also provides them with insights into terms of power usage and helps them narrow down to problem areas (irrespective of whether they are technical issues or pilferage issues). Normally standalone metering (which is largely the standard right now) is highly person dependant which can result in a great

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deal of human errors that make accurate measurement of power consumption almost impossible. Besides that there are many related issues that come into play when we have archaic metering systems. Energy audits which are performed based on bill collection are highly inaccurate as billing is done on an estimated monthly average consumption basis. Due to this utilities are unable to monitor and control discrete loads leading to lack of consistent supply thereby resulting in frequent outages. Manual reading of meters increases billing cycles apart from introducing inaccuracies in the data that does not help in making critical analysis such as demand analysis, energy audit and pinpointing losses. But introduction of innovative concepts like smart metering or wireless AMRs (Automated Meter Reading) technologies will help alleviate such issues. This is because wireless AMRs and smart metering concepts will help utilities move towards a more centralized operational control model wherein data communication starts to play a more pivotal role in the overall operation

of utilities’ electric distribution systems. Everyday more and more utilities across the world are turning to wireless technologies to improve operations and decision making in the delivery of various customer services including electric, gas, water, etc. As this reliance on wireless connectivity grows and technology improves, wireless networks start taking an increasingly significant role as the backbone over which utilities are connected to their assets, employees and customers. The impact of M2M technologies is not just restricted to benefiting utilities but it also has the potential to impact the behavior of consumers towards energy conservation. With the help of M2M technologies they can get an accurate view on how each energy consuming device in their household is contributing to their energy bills. For demonstration purposes, let us say, if a consumer gets visibility into which device consumes the greatest amount of energy under what conditions, he/ she would be more careful in operating that particular device resulting in reduced energy bills in

the long run. This can be made possible by using different kinds of sensors which are connected to M2M devices/ applications that provide them with wireless updates about their energy consumption patterns helping them make more informed decisions on their usage patterns. Besides this, it will also provide them with visibility into when and how are they consuming more power than the sanctioned loads thereby helping them optimally use the energy. This will not only lead to lower energy bills for consumers but will also help them conserve energy. While there are numerous other benefits that M2M enabled smart metering concepts can bring to the table, what is very clear is that they play a critical role in the world’s effort towards energy conservation and reducing the carbon footprint due to inefficient usage of power and electricity. 

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T r a n s mi s s i o n & D i s t r i b ut i o n

Opening The Doors Siddartha Ramakanth Keshavadasu, Sanket Gupta

ven after 11 years of the effect of The Electricity Act 2003, Open Access is still a distant dream for many stakeholders of the sector. Reasons may be transmission bottlenecks or political will, the end result is the same. Though bulk consumers trade around 40% of the power traded through leading power exchanges to procure power by-passing the local utilities, serious issues in Open Access still remain. Indian GDP is stalled by 0.4% because of power cuts to the industries as per FICCI and the loss of markets because of higher prices, which is the key resultant of higher power procurement cost, is still not found in books of India Inc. A 100% Open Access implementation throughout India by empowering the infrastructure, consumer and local utility is very much important in the scenario to minimize this loss. More than the governmentâ&#x20AC;&#x2122;s will, it is the lack of Infrastructure and the lack of information for the bulk consumers in performing the cost benefit analysis in the respective states of their businesses, which

EQ May 2014

is the reason for very few consumers availing Open Access even in the states which are permitting the Open Access to the fullest. This year after elections, there will be a positive scenario in the Indian markets providing lots of opportunities for the industries to grow globally by imparting the competitiveness in prices by minimizing the cost of power procurement. This report focuses on providing information on costs and benefits which can incur to the consumers by opting Open Access and will actually pave a way to empower the bulk consumers in the state to get the idea on how Open Access in Electricity is going to be a boon for their businesses.

INTRA-STATE OPEN ACCESS Rajasthan is one of the most favorable state for intra state Open access. Being a hub for electricity intensive industries like Textiles, Granite and Chemicals, the need for reliable and economic power is very

prominent. Rajasthan is among the leading investment destinations in India. Hundreds of Industries are expected to come up in IT and Manufacturing fields in Mahindra World City, Jaipur and the areas facing National Capital Region. In this state, the difference in cost between the traditional power procurement and open access is considerable at 11KV and significant at 33, 66KV. A bulk consumer of 11KV can save up to Rs.2.52 Lakhs per month on the other hand bulk consumers at 33KV and 66 and 132KV can save Rs.26.28 Lakhs and Rs.34.92 Lakhs per month respectively. Apart from economic power procurement, the reliability factor is very much important because scheduled and unscheduled power cuts in areas of Udaipur, Jaipur and Kota are prominent and the cost comparison between DG sets as well as opportunity cost for the businesses in highly regarded with Open Access. Andhra Pradesh is the state with the

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most cost beneficial scope of intra state open access for industrial consumers. In this report, the comparison for industrial colonies and industrial tariff has been done with open access landed cost. For each Discom of the state, the comparison gives positive results for an industry drawing at 11kV. The highest difference for the cost of power through Discom and Open access is given by NPDCL that is of about Rs1.98 per unit. On a monthly basis, this saving amounts to Rs.71.28 lakhs. Also, if one opts for open access for industrial colonies, per unit cost benefit comes out to be Rs.1.10 for consumers procuring power from CPDCL at 11kV voltage. This amount grosses up to Rs.39.6 Lakhs on monthly basis. The net saving for this category of consumers (5MW) procuring power from open access over other Discoms of the states is much higher. Hyderabad and Vishakhapatnam – the most favorable cities for upcoming ITIR projects proposed by the Government of India, can attract even more of such projects by providing a better inter-regional transmission infrastructure as it is a major bottleneck now. The count of 623 consumers in the state is a clear indication of feasibility of OA in the state.

PRICE DYNAMICS IN SHORT TERM OPEN ACCESS The average MCP across the North, North-East, East regions, the State of Chhattisgarh (W3 bid-area) and the state of Punjab (N3 bid area) was Rs.3.06, Rs.3.08, Rs.3.05, Rs.2.09 and Rs.3.06 respectively

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for FY 2013-14. Prices in the Southern region (S1 and S2 bid areas) were higher as compared to prices in other regions. In S1 bid-areas (Karnataka and Andhra Pradesh) the average price was at Rs.3.65 per unit, marking a negligible increase in price over the last month. While in the S2 bid-area (Tami Nadu and Kerala), price could not even be discovered for most of the months mainly due to persistent constraints in power flow.

a comprehensive way including the price dynamics involved in all forms of Open Access and the constraints involved in the way of 100% implementation of Open Access.

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The Area Clearing Prices (ACP) is different from the Market Clearing Price as the rise/fall of price in an area occurs due to the effect of transmission congestion which causes market splitting. Congestion in the corridor is made easy to understand by comparison of the actual allotment of corridor for long term contracts with the capacity available for short term markets. If the flow is more than the capacity, the ACP comes into picture so that excess demand is trimmed. And if the flow is not more than the capacity, MCP is calculated for the whole area. This is because if the flow is more than the capacity at the market price for the whole area, market splitting takes place. The average ACP (DAM+TAM) for NEW regions for the FY 2013-14 remained at Rs.2.92 per unit, , whereas in S1 bid-areas (Karnataka and Andhra Pradesh) the average price was at Rs.5.05 per unit, marking a negligible increase in price over the last month. While in the S2 bid-area (Tamil Nadu and Kerala), price was recorded at 6.33 (moving average) Please read the whole report to understand the Open Access scenario in

May 2014

PRODUCTS skytron® Energy’s New Power-Efficient Combiner Box At Intersolar Europe 2014 The new ArrayGuard® CP combiner boxes have been designed to meet the demand for highly power-efficient BOS components in utility-scale photovoltaic installations.

consumption at 1.5 W max. Optimised cabinet layout providing efficient heat dissipation and prevention of condensation in humid climates 

Long service life outdoors ensured by rugged cabinet design using UV-resistant polyester material 

Berlin-based sk y tron® energy is a renowned supplier of high quality monitoring, control and supervision systems to the renewable energy sector. Its product range includes the well-established ArrayGuard® combiner-box series for PV systems, first launched in 2006. This 1000 VDC component family has now been expanded to include a redesigned smart combiner box for utility-scale PV applications. Its neatly arranged interior layout and compact light-weight design makes the new ArrayGuard® CP model particularly efficient with respect to power dissipation. This in turn ensures reliable operation even at outdoor operation temperatures from -40 to +50 degrees centigrade and altitudes of up to 4000m above mean sea level. The newArrayGuard® CPmodels offer an outstanding price/performance ratio whilst preserving the reliability that this product’s reputation has been built upon. TheArrayGuard®CP compact model comes with the essential measurement, switching and protection functions fully integrated at no additional cost. 

Efficient DC connection of up to 24 strings

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Operational safety provided by integrated DC load disconnector

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Real-time string current monitoring at 100 ms scan intervals and acquisition of 1-minute mean values, using reliable

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Straightforward installation, DC connection and maintenance provided by optimised mounting kit, clear terminal fixings, and easily replaceable plug-in string fuses 

Spacious allowance for flexible connection of DC main cables, suitable for large cable cross-sections and different connection methods, e.g. lugs, box terminals, double dc main cables 

shunt measurement techniques with high temperature-stable measurement precision of 0.5% 

Reliable string protection provided by gPV plug-in fuses for both PV+ and PV-

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Adaptable surge protection, using Combi Type 1+2 to handle direct strike currents, or Type 2 to handle indirect strike currents, compliant with local lightning protection standards

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Industry-standard data communication based on CAN fieldbus technology

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Fully integrated monitoring of all critical conditions: tripping of surge protector, on/off status of DC isolator switch, cabinet temperature

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Low cost operation ensured by efficient power management with 24 V dc supply over CAN bus and low power

skytron energy’s expanded ArrayGuard®combiner series is highly adaptable to accommodate additional functions such as remote OFF for additional fire safety on rooftop installations, external DC isolator switch mounted on the front panel, 1500VDC operation or 32 string inputs, UL certification for the US market. “Offering highest reliability for a motivating price, ArrayGuard®CPwill not only have a positive effect on general BOS costs, but will particularly benefit solar projects in tough-temperature and highaltitude zones”, declares Torsten Schlaaff, the company’s Head of Hardware R & D. “Displayed in ourPVGuard®supervision platform, intelligent ArrayGuard® combiner boxes facilitate high-resolution analysis of string and plant performance and thorough plant diagnostics, which after all is vital for efficient O&M work, maximum plant uptime and optimum yield”.

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PRODUCTS More Independence In The Use Of Energy: SMA Presents Innovations At The Intersolar Europe 2014 New inverters and services

SMA Solar Technology AG (SMA) will be presenting its innovative solutions for more energy independence at the Intersolar Europe from June 4 to 6, 2014, in Munich. The integration of energy storage systems will be the main focus at the booth—from SMA Smart Home for efficient use of selfgenerated solar electricity in households and commercial operations to the new megawattclass battery inverter Sunny Central Storage. For the first time at the Intersolar, SMA will also exhibit a comprehensive system solution for large-scale PV power plants that will meet all current and future demands. SMA Smart Home: intelligent system technology for more self-consumption “With smarter system technology, SMA sets worldwide standards for an efficient and future-proof energy supply on the basis of renewable energies,” said Roland Grebe, Board Member for Technical Innovation. With the storage solutions SMA Flexible Storage System and SMA Integrated Storage System, SMA thus enables more independence from rising electricity or operating costs. In addition to the immediately available Sunny Boy Smart Energy with integrated storage system, we are focusing on the integration of e-mobility and heat pumps. It‘s precisely the connection of intelligent energy management with SMA Smart Home and the optimal charging infrastructure that significantly increases self-consumption and reduces energy costs. This creates interesting possibilities for industry and households,” said Grebe.

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SMA also offers some innovations in the area of string inverters. In addition to the new, more powerful Sunny Tripower-Generation with 20 and 25 kW are expanded power classes with the Sunny Boy TL as well as the smaller Sunny Tripower-Generation, which will soon be available up to 12 kW. The Sunny Island 3.0/4.4 is also new, optimized for small systems from 2 to 13 kW. This robust device is both on- and off-grid-compatible. The solution offering is topped off by the new, modular service concept “Service Select.” It combines service products that are already well-known, such as the extended warranty and remote service, with new services: commissioning, system modernization, regular maintenance or a one-time system check by SMA experts. Besides these services, the new Sunny Portal Professional Package ensures comprehensive monitoring and management of different PV systems for reliable yields. The community portal Sunny Places also connects very transparent PV system monitoring with the possibility of interacting with like-minded people. SMA Utility Power-System: complete solution for large-scale PV power plants For the first time in the PV large-scale plant segment, SMA will present a complete DC-to-AC system at this year’s Intersolar that meets all demands of today’s and future large-scale PV power plants. The optimized system covers the DC voltage ranges of 1 000 V with 2 200 kVA and 1 500 V with 2 500 kVA, enables the use of nearly all module types that are used in large-scale PV power plants today, and is suitable for outdoor installation—everywhere in the world. Thanks to its compact design, the SMA Utility Power System reduces costs during transport, installation and commissioning.

It is available as a turnkey system solution or in flexible packages. With the perfectly synchronized components such as the inverter, medium-voltage block, DC technology, corresponding park control and services, the SMA Utility Power System expands the features of PV power plants. Ready for use with battery storage technologies and in PV hybrid systems, it enables the operation of systems that until now were dependent solely on diesel fuel. Sunny Central Storage: megawatt-class battery inverter for reliable grid operation The integration of large storage systems into PV power plants optimizes grid operation and supports the further development of renewable energies. From frequency control and voltage maintenance to supply restoration and grid congestion management—in combination with the new megawatt-class battery inverter, the Sunny Central Storage, it is possible to provide the full range of system functions that are so important for secure and reliable grid operation. Thus, must-run units can be replaced, operating and maintenance costs as well as short-term investments in grid expansion can be reduced and avoided. SMA Fuel Save Solution: efficient hybrid solution for industrial consumers Photovoltaic diesel hybrid systems with the SMA Fuel Save Solution offer a true alternative to pure diesel power generation for industrial applications with or without limited access to the utility grid. Specifically developed for the integration of large solar power ratios of up to 60% of the installed diesel genset capacity, this modular system solution considerably reduces the operating costs as well as CO2 emissions. The system solution with the SMA Fuel Save Controller was nominated as a finalist for the Intersolar AWARD 2014.

May 2014

PRODUCTS Dow Corning Continues Commitment To Solar Industry With Innovative Solutions contact, which helps increase long term sustainability and reduces the overall cost.

Dow Corning introduced its latest solar solutions at SNEC 2014, As the global leader in innovative silicone-based solutions, Dow Corning displayed several new photovoltaic (PV) products, which are designed to meet the increased industry demand for product efficiency and LCOE (Levelized Cost of Electricity) reduction. As a trusted technology collaborator with solar businesses along the value chain— including cell and module manufacturers, installers, project developers, utilities and investors—Dow Corning understands their needs for reliable, high performance and cost effective PV solutions. With a focus on solutions that drive down costs, enhance system performance and help make solar more competitive with traditional forms of energy, the company will debut its innovative potting agent solution PV-7326. Developed by the local China R&D

team for the global market, the silicone potting material is a tailor made product for PV J-box potting, protecting the internal components from corrosion and making the PV J-box smaller. The new potting agent thus helps PV module manufacturers reduce cost and improve product performance. Besides PV-7326, Dow Corning feature several key silicone-based solutions at SNEC 2014: •

PV-5802: a high performance and reliable electrically conductive adhesive for assembling the PV module’s back

•

PV-6212: an optically clear silicone encapsulant providing high transmission of light to the solar cell and superior reliability and durability for modules, allowing high performance in PID (Potential Induced Degradation) resistance.

•

PV-8007: a neutral sealant that not only seals and protects, but also offers health and safety because it is nontoxic. PV-8007 is the latest addition to Dow Corning’s broad frame sealant family, confirming the company ability to continuously bring new benefits to customers through innovation.

300W-Module with SCHMID PERC-Turnkey •

21% efﬁciency with monocrystalline cells

•

Savings in the two-digit million Euro range during ramp-up

Freudenstadt / Germany. In less than one year the SCHMID Group has increased the efficiency for its turnkey production of monocrystalline PERC cells from 20 to 21%. The reasons are backside passivation progress, the multi-busbar cell architecture and the silver-free rear side with TinPad. “We exceed the 300W mark for 60-cell modules,” explains Dr. Christian Buchner, Head of the Business Unit PV at SCHMID. “With our innovative technologies PV manufacturers can supply the attractive market for highefficiency cells”.

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Cost effectiveness from the very beginning Perfectly harmonized processes and systems as well as SCHMID’s longstanding turnkey experience guarantees the rapid production readiness and, according to Mr. Buchner, economic benefits that may reach the double-digit million Euro range.

Stable processes in a very short time allow high efficiencies with minimal waste. The first revenues can already be achieved during the ramp-up phase with cells ready for sale.

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PRODUCTS IBC SOLAR Expands Its Solar Module Series “IBC EcoLine” IBC SOLAR AG, a global leader in photovoltaic (PV) systems, is expanding its IBC EcoLine series with the new solar modules IBC MonoSol 265 CS and IBC MonoSol 270 CS based on monocrystalline silicon. Thanks to the anti-reflective coating on the front glass panels, these modules capture even more light and therefore produce optimum yields. The new IBC MonoSol modules are highly effective due to their anti-reflective photovoltaic glass. Furthermore, their sturdy hollow-chamber frame provides even more safety makes the module extremely resistant

to wind and snow loads. Whether they are used on detached houses, the roofs of industrial properties or in open spaces, these tried and tested IBC Monosol CS photovoltaic modules are suitable for any application. Regular quality assurance and process audits during the production guarantee the particularly long service life of the modules combined with maximum performance, efficiency and reliability. Quality tests are carried out by IBC SOLAR in their own laboratories with climate chambers and a flasher with integrated electroluminescence measuring.

Heraeus Photovoltaics Introduces Two New Pastes for Lightly Doped And Ultra Lightly Doped Emitter Cells At SNEC The Heraeus Photovoltaics Business Unit, a worldwide leading supplier of metallization pastes for solar cells, launched two new front-side metallization pastes for standard to ultra-lightly doped emitter cells - the SOL9620 Series and SOL9621 Series - at the SNEC (2014) International Photovoltaic Power Generation Conference & Exhibition . The SOL9620 Series and SOL9621 Series enables cell manufacturers to further improve their c-Si cells’ conversion efficiencies to an industryleading level. By using these new pastes, customers have confirmed efficiency improvements that ranged between 0.05% and 0.20% absolute on lightly doped emitter [90 – 100 ohm/sq.] wafers, relative to the best commercially available front-side pastes. Even greater gains have been achieved on

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ultra lightly doped emitter [110 ohm/sq.] wafers, where the paste unfolds its peak performance.

The SOL9620 Series and SOL9621 Series of pastes are able to provide excellent contact on lightly doped emitters [LDE]. The SOL9620 Series is outstanding for ultralightly doped emitters [ULDE], with surface

doping concentrations down to 1xE20/cm3. “The SOL9620 Series also has the ability to be fired at a peak temperature 15 K less than standard firing temperatures. This is ideal for PERC applications. The SOL9621 Series has demonstrated great results for LDE applications. The SOL9621 Series provides customers with a flexible process window, which aids in providing a lower manufacturing cost,” explains Dr. Weiming Zhang, Vice President of Technology of the Heraeus Photovoltaics Business Unit. He continues to state, “The reduced contact resistance on LDE und ULDE wafers helps yielding increased voltage and higher cell efficiencies. When optimized in a customer’s manufacturing process, both pastes provide excellent performance.”

May 2014

PRODUCTS CSUN Introduces Its New Frameless Module At Intersolar, Munich CSUN, a specialized manufacturer of solar cells and modules is pleased to announce that it will introduce its new frameless module at this year’s Intersolar, taking place in Munich from 4th to 6th of June. Celebrating its 10th company anniversary, CSUN takes once again the opportunity to launch an even more cost effective module type to its European and global customer base. CSUN’s new frameless module is

ideal for modern building applications. The module is lightweight and very thin making it easy to handle and install. The edges of the modules are secured with solar tape for maximum durability. The module’s high efficiency and power output ensure high yields despite space limitations, e.g. on private rooftops. In addition to being exhibited at CSUN’s booth in hall A1.270, the new frameless module is

also introduced at the Intersolar Innovation Exchange on Friday 6th of June at 12.30h in hall A3.550

JinkoSolar Unveils ‘Eagle + Series’ of Solar Modules with 275-Watt Peak Power Output JinkoSolar Holding Co., Ltd. a global leader in the solar PV industry, today announced that it has unveiled its new ‘Eagle+’ series of solar modules at the SNEC PV POWER EXPO in Shanghai. Like its predecessor, the world’s first potential induced degradation (“PID”) free modules certified under weather conditions of 85 Degrees Celsius and 85% relative humidity which were launched in January 2013, the ‘Eagle+’ series which is comprised of JinkoSolar’s 60 piece poly module has been engineered to reliably reach 275-watts of peak power output: a new record for mass-produced and commercially available modules. 74

EQ May 2014

The ‘Eagle+’ series modules feature JinkoSolar’s innovative cell and assembly technology which enables them to remain PID free under weather conditions of 85 Degrees Celsius and 85% relative humidity, 10 times higher than International Electrotechnical Commission (IEC) standards. Using new materials and technology, the ‘Eagle+’ series of modules reduces the possibility of snail trailing and yellowing resulting from longterm use to almost zero, representing a new standard for high performance and reliability in the market. “Technical innovations such as these

have radically changed this industry,” commented by Mr. Kangping Chen, Chief Executive Officer of JinkoSolar. “As a global leader in PV industry, we are proud to be at the forefront of technology by delivering the products the market demands. As such, we are demonstrating JinkoSolar’s commitment to consistently delivering the most reliable solar technology and the best quality products.”

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PRODUCTS DEK Solar Showcased New Metallization Technologies at SNEC 2014 “High accuracy, scalable platform technology with rich features to enhance cell production and in-field performance efficiency are critical for cost-competitive solar cell manufacturing,” comments DEK Solar Director, Brian Lau. “However, PV cell manufacturing advances do not rest solely on the shoulders of platform capability.” DEK Solar demonstrated several new metallization platform technologies, all designed to raise solar cell efficiency and line throughput. DEK Solar’s award-winning metallization platforms are at the heart of the exhibit. Each addressing unique customer requirements, the DEK Solar metallization systems leverage exceptional accuracy, low breakage rates and varying wafer per hour (wph) capability to accommodate the specific needs of solar cell manufacturing specialists. DEK Solar’s HouYi platform is a small footprint, 1350 wph metallization system that delivers the high reliability and futureproofing flexibility today’s PV firms require. With robust machine control software and advanced sensor technology, HouYi optimises reliable metallization performance. A new squeegee mechanism supports both trailing and diamond blade designs, delivering proven print quality over many thousands of prints. In addition, an integrated air knife technology minimises platen area contamination and, therefore, helps reduce wafer breakage. All of these capabilities, in addition to simple scalability for future growth, make HouYi the ideal platform for all levels of commercial solar cell production. With 4,000 wph capability, DEK Solar’s high-volume Eclipse metallization platform unites extreme speed with exceptional

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on the shoulders of platform capability. DEK Solar’s nextgeneration screen and stencil developments are also facilitating some of the world’s highest efficiency cells – all driven by a team of metallization process experts.”

accuracy and reliability. A highly-flexible and modular design is central to Eclipse’s market value, as dynamic cell manufacturing operations can leverage the platform’s modularity to easily scale production as demand dictates, accommodating anywhere from 1,200 to 4,000 wph. Print speeds of 600 mm per second combine with zeroedge-contact cell transfer to deliver high throughput with minimal breakage. Rounding out the platform display is DEK Solar’s Apollo metallization system which, at SNEC, incorporated brand new Solar Sentinel technology. The awardwinning Apollo platform boasts +/- 10 µm accuracy at 2 Cpk and a low breakage rate of less than 0.15%. Combining this technology with DEK Solar’s new Solar Sentinel makes the Apollo platform even more productive. Solar Sentinel is a novel inspection technology that verifies material coverage for 45 µm lines, detects cell edge chips and senses complete wafer breaks. A “go/no go” feature accepts or rejects the print and wafer integrity all in real time so as to ensure maximum throughput with minimal yield loss. “High accuracy, scalable platform technology with rich features to enhance cell production and in-field performance efficiency are critical for cost-competitive solar cell manufacturing,” comments DEK Solar Director, Brian Lau. “However, PV cell manufacturing advances do not rest solely

On the heels of its contributions to a record-breaking 21.2% PERC cell efficiency project with the Institute for Solar Energy Research Hamelin (ISFH), DEK Solar will share the enabling dual print process screens and VectorGuard (VG) Fine Line Stencils™ with SNEC show delegates. DEK Solar VG Fine Line Stencils deliver excellent printed line height uniformity and high aspect ratios for consistent and flat lines of less than 40 µm line widths. When used in the dual print process, the busbars are first printed with a fine mesh screen and the conductor fingers are then printed with a VG Fine Line Stencil. This not only reduces silver paste consumption, but also helps increase cell efficiency, as evidenced by this latest world record work with ISFH. DEK Solar VG Fine Line Stencils are built on the award-winning VectorGuard stencil technology, which utilizes a single frame design with interchangeable foils for ultimate flexibility. Reduced storage requirements with foil-only storage, environmental friendliness facilitated by the elimination of frame disposal or refurbishment and better print performance are all inherent benefits of the VectorGuard system. With VG Fine Line Stencils for solar printing, a unique tensioning mechanism improves print behaviour and limits the widening of the outer fingers to ensure print uniformity and exceptionally thin lines. Demonstrations of VectorGuard technology will take place at the DEK Solar exhibit throughout the event.

May 2014

PRODUCTS BTU Showcased SWIFT Inline Diffusion Technology At SNEC For Scalable, UltraHigh Throughput BTU International, Inc., a leading supplier of advanced thermal processing equipment for the electronics manufacturing and alternative energy markets, highlighted the company’s new Stacked Wafer Inline Furnace Technology (SWIFT), ultra-high throughput technology for solar cell diffusion, in booth E3-210 at the 8th SNEC Power Expo 2014, at the Shanghai New International Expo Center in Shanghai, China. BTU will also exhibit the SinTerra, the latest technology for metallization firing. “As PV demand continues to grow vigorously, manufacturers are strategizing the best ways to expand capacity. We’re presenting a scalable technology that can provide up to 15,000 wafers per hour, while conserving factory floor space and lowering cost per watt,” said Bob Bouchard, corporate marketing manager for BTU International.

“This technology is adaptable to both traditional and PERC p-type cells and provides a real game-changing process solution,” added Bouchard. The Meridian™ inline diffusion system featuring new Stacked Wafer Inline Furnace Technology (SWIFT) can be configured to produce up to 15,000 wafers per hour for both high efficiency PERC and traditional p-type cells. The process can be integrated into new and existing solar cell lines. BTU will also be presenting its latest advancements for co-diffusion processing of n-type advanced cell structures. The inline co-diffusion process dramatically lowers cost per watt by eliminating process steps, enabling cost-effective mass production of

n-type bi-facial cells. An innovative dopant application method enables patterned emitter formation for IBC and other back contact cell structures. The SinTerra, the latest technology for metallization drying and firing from BTU, offers outstanding value by providing highperformance heating and low-bow cooling technologies. SinTerra delivers the lowest cost of ownership with industry-leading uptime, unmatched process repeatability and competitive pricing.

ET Solar Launches Cell Optimizer Module Globally ET Solar Energy Corp. (“ET Solar”), a leading smart energy solutions provider, announces its global launch of Cell Optimizer Module (“COM”).

only at the module-level. Therefore, PV systems using COM would not have module mismatch problems and could increase electricity output by up to 20%.

As an innovator that adopts maximum power point tracking chips, ET Solar developed COM that offers maximum power tracking of individual solar cell string on real-time basis and thus achieves cell string-level power optimization. The product represents a significant enhancement from the conventional solution that is based on bypass diodes and offers power optimization

ET Solar’s stringent raw materials selection and robust production control ensure the product’s highly reliable performance, minimize hot spot induced system failures and extend system life. With excellent environmental adaptability, the product substantially decreases power loss caused by shading and soiling on module surfaces. Furthermore, COM would also enable higher

EQ May 2014

density for constrained installation space, and reduce cost of installation, operation & maintenance of the PV system. Mr. Dennis She, President and CEO of ET Solar, comments that, “We are pleased to make available this innovative module product to our customers worldwide. COM reflects our persistent efforts to provide high-quality products and innovative smart energy solutions to reduce LCOE and increase returns. ”

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Renergy 2014 Renewable Energy World Europe 2014 Date: 3-5 june 2014 Place: Cologne, Germany Organiser: pennwell Tel.: +44 1992 656637 Email: claudetteh@pennwell.com Web.: www.renewableenergyworld-europe.com

Intersolar Europe 2014 Date: 2-6, june 2014 Place: Munich, Germany Organiser: inter solar Tel.: +49 7231 58598-0 Email: dufner@intersolar.de Web.: www.intersolar.de

Date: 12-14june2014 Place: Tamil Nadu, India Organiser: UBM Tel.: +91 9940459444 Email: julian.thomas@ubm.com Web.: www.renergyteda.com

Date: 17-19june2014 Place: Taipei, Taiwan Organiser: Pennwel Tel.: +886 2 23967780 Email: judy@mail.pida.org.tw Web.: www.optotaiwan.com

Renewable Energy Asia 2014

Date: 13-15june2014 Place: Boston, Massachusetts, USA Organiser: Tel.: +1 703 7389467 Email: spoblete@solarenergytradeshows.com Web.: www.pvamericaexpo.com/east

Green Energy Asia 2014

2nd International Summit & Expo - Renewable World 2014

Date: 10-12june2014 Place: Kuala Lumpur, Malaysia Organiser : UBM Tel.: +6 3 21768788 Email: greenenergy-my@ubm.com Web.: www.greenenergyasia.org

Building Solar China Conference and Exhibition Date: 09-12june2014 Place: Nairobi, Guangzhou, China Organiser: Tel.: +86 20 66692490 Email: 2955923552@qq.com Web.: www.buildingsolarchina.com

Date: 8-10july2014 Place: San Francisco, California, USA Organiser: Tel.: +1 408 9436900 Email: sales@semi.org Web.: www.semiconwest.org

The 9th Intâ&#x20AC;&#x2122;l Photovoltaic Exposition

PV America 2014 Date: 4-7june2014 Place: Bangkok, Thailand Organiser: annexhibition Tel.: +86 10 65262861-616 Email: info@annexhibition.com Web.: www.renewableenergy-asia.com

Semicon West 2014

Date: 3-4july2014 Place: New Delhi, India Organiser: fortunemediagroup Tel.: +91 22 65657781 Email: info@fortunemediagroup.in Web.: www.fortunemediagroup.in

Intersolar North America 2014 Date: 7-10july2014 Place: San Francisco, California, USA Organiser: Intersolar Tel.: +49 7231 58598-206 Email: brade@intersolar.us Web.: www.intersolar.us

PVJapan 2014

Date: 30july-1Aug2014 Place: Tokyo, Japan Organiser: Tel.: +81 3 68691561 Email: m-suda@jpea.gr.jp Web.: www.jpea.gr.jp

Solar Power Asia Conference 2014 Date: 18-21Aug2014 Place: Singapore Organiser: Tel.: +65 6508 2401 Email: leiching.yew@ibcasia.com.sg Web.: www.solarpower-ibc.com

World Renewable Energy Technology Congress & Expo 2014 Date: 26-28Aug2014 Place: New Delhi, India Organiser: Tel.: +91 92 13901510 Email: punit.nagi@ee-foundation.org Web.: www.wretc.in

The 6th Guangzhou International Solar PV Exhibition 2014 Date: 26-28Aug2014 Place: Guangzhou, China Organiser: Tel.: +86 20 29188156 Email: grand.ev@grahw.com Web.: www.pvguangzhou.com

For Listing of your Event : Conference and events are listed free-of-charge, so please feel free to get in touch to tell us about your event. We would also be happy to provide you with free copies of magazine for distribution at your events.(while stock last). Please send your conference information to : Mr. Gourav Garg at gourav.garg@EQmag.net

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May 2014

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Solar Map of India 4th Edition 2014

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11 GANGADAN ENERGY

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16 ITW SOLAR

EQ May 2014

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www.EQMagLive.com

EQ International Magazine Editorial Advisory Board

K Subramanyam Former CEO Tata BP Solar

Shaji John Chief Solar Initiatives, L&T

Shivanand Nimbargi MD & CEO Green Infra Limited

Oliver. Behrendt Managing Director - REFU Solar Electronics Pvt Ltd

Ravi Khanna - CEO Solar Power Business Aditya Birla Group

Sunil Jaini Chief Exe. Off. & Exe. Director Hero Future Energies Pvt Ltd.

Gyanesh Chaudhary Managing Director Vikram Solar Private Limited

Gaurav Sood Managing Director Solairedirect Energy India Pvt Ltd

Rajesh Bhat - Managing Director juwi India Renewable Energies Pvt Ltd

Inderpreet Wadhwa CEO Azure Power

Arturo Herrero CSO Jinko Solar

Pashupathy Gopalan Managing Director MEMC-SunEdison

Himamsu Popuri CEO Nuevosol Energy Pvt. Ltd.

Paulo Soares CFO & Director Inspira Martifer Solar Ltd