The ELECTRICAL ENGINEER FIRST QUARTER 2011
2011 IIEE Board of Governors and Officers National President VP-Internal Affairs VP-External Affairs VP-Technical Affairs National Secretary National Treasurer Auditor Region I Region II Region IV Region V Region VI Region VII Region VIII Region IX Immediate Former President Officer-in-Charge
Armando R. Diaz Jules S. Alcantara Gregorio R. Cayetano Alex C. Cabugao Ma. Sheila C. Cabaraban Larry C. Cruz Florigo C. Varona Francis R. Calanio Virgilio S. Luzares Roselyn C. Rocio Ronaldo D. Ebrada Marlon T. Marcuelo Lelanie T. Mirambel Rey G. Paduganan Victorianito E. Teofilo Gregorio Y. Guevarra Ramon P. Ayaton
IIEE National Secretariat Department Heads Administrative Finance Technical Marketing & Memberhip
Niellisa Joy B. Bandong Karen T. Sacdalan Ramon P. Ayaton Allen M. Pido
Overseer:
PRESIDENT’S REPORT
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IIEE NEWS Chapter and National News
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A Tribute to Engr. Edward L. Mendoza
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COVER STORY From Di-yar-yooo to CEO
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QUARTERLY INDUSTRY NEWS DIGEST • • • •
Robinson S. Uy Ernesto M. Cabral Marvin H. Caseda Dr. Allan C. Nerves Ronald Vincent M. Santiago Alex C. Cabugao
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The ELECTRICAL ENGINEER The Electrical Engineer is published quarterly by the Institute of Integrated Electrical Engineers of the Philippines, Inc. (IIEE), with editorial and business offices at #41 Monte de Piedad St., Cubao Quezon City, Philippines. Tel Nos. (632) 722-7383, 7273552, 412-5772, 414-5626, Fax Nos. (632) 721-6442 & 410-1899. Website: www.iiee.org.ph, E-mail: iiee@iiee.org.ph. The present circulation of the magazine is 28,000 copies per issue to members and industry stakeholders.
Meralco Clarifies Settlement Agreement Issue ERC Amends Rules for Issuance of License to Retail Electricity Suppliers DOE Allays Fears of Possible Oil Supply Disruption DOE Prepares for 2011 Requirements to Ensure Reliable Supply Nationwide
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TECHNICAL FEATURE •
Publications Committee Chairman: Members:
Contents
Framework for Reliability Evaluation of the Smart Grid 25 By: Engr. Edwin B.Cano, PEE Electric Motor Technical Description 29 From Electric Power Research Institute APQI Reducing Inrush Current Through a Hospital Equipment Prevented Frequent Failures 33 By: Dean A.S. Sempio A Closer Look at Power Factor Adjustment Does NGCP Really Need to Get Rid of It 35 By: Roque F. Corpuz & Gerald F. Pagobo
SPECIAL FEATURE •
BEE Corner: Honesty: A Lost Virtue? By: Hon. Fortunato C. Leynes, Chairman
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PEC-torial
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People and Events
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The Electrical Engineers Editorial Board Chairman Editorial-in-Chief Associate Editor: Technical Consultant: Administrative Officer:
Alex C. Cabugao Robinson S. Uy Ernesto M. Cabral Dr. Allan C. Nerves Ramon P. Ayaton Editorial Staff
Editorial Assistant Technical Assistant Graphic Artist
Jenelyn C. Pajutining Glynn Andy O. Gayman Elwood B. Perez
Advertising and Marketing Account Executive
Joan Q. Delos Santos 727-3552 loc. 101 410-1899
Views or opinions expressed by the authors of letters, articles and research studies published in The Electrical Engineer DO NOT necessarily reflect the views of the Institute of Integrated Electrical Engineers of the Philippines, Inc. (IIEE). The IIEE trusts the integrity of these authors. The IIEE exercises due review diligence but it is possible that the contents of the articles contributed may not be verified due to time constraints. Articles or visual materials may not be reproduced without written consent from IIEE. The IIEE reserves the right to accept or refuse submitted materials for publication. Articles, reactions and feedback from readers may be sent through e-mail at technical@iiee.org.ph
To Our Readers From the Desk of the
Vice President for Technical Affairs
As we reach the 36th year of serving the electric industry , we are confident that the competency of members and industry practitioners is significantly enhanced. It is the Institute’s thrust this year to strongly promote affordable energy sources as the primary key to national competitiveness. The advocacy initiatives gives priority to information and educational campaigns and choice topics in technical sessions of various fora. We expect also the collaboration with other technical organizations here and abroad to maximize our resources and create broader impacts. For this issue, The Electric Engineer features various activities of the Institute with the cooperation of its chapters and regions during the first quarter of 2011. We have gathered the expertise and experiences of our industry practitioners in the published technical articles to serve as references for our other members. We thank Electric Power Research Institute (EPRI) which is one of the leading research and development centers in the field of electrical engineering for allowing the Institute access to relevant technical reports and researches. This move will surely enhance the technical knowledge of the members of the Institute. Our magazine warmly welcomes the newly elected Board of Governors under Engr. Armando R. Diaz, our National President. The reports of the recently concluded National Student Convention is one of the highlights in this issue since it has always been the Institute’s objective to enhance the skills and leadership competencies of the IIEE Council of Student Chapters. We encourage all members to take time to prepare technical papers dealing with theories and applications in the field of electrical engineering that could be presented in the 36th IIEE National Convention. These papers could eventually find publications in local and technical magazines of the electric and power industry. The guidelines of the 2011 EE Research Contest drawn by the Academic Affairs Committee are also featured in this issue. The Editorial Board expresses its appreciation to all who continuously contribute and support to The Electric Engineer. We trust that we will make worthy contributions to the industry through our magazine and other publications of the Institute.
2011 Tentative Schedule of Trainings and Seminars (March to June 2011) Substation Design March 4 & 5 Engr. Virgilio S. Luzares National Building Code March 26 & April 2 Engr. Fe Barrientos Short Circuit Calculation & Analysis April 15 & 16 Engr. Vincent Jimenez PLC-Programming Method & Its Application April 15 & 16 Engr. Gamaliel Itao & Engr. Philip Marvin D. Joven Process Automation (Instrumentation) April 29 & 30 Engr. Gamaniel Itao & Engr. Philip Marvin D. Joven Protective Relaying April 29 & 30 Engr. Ulysses B. Paguio Electrical Power System Design of High Rise Residential & Commercial Buildings May 6 & 7 Engr. Ulysses B. Paguio Renewable Energy: Solar Power System May 13 & 14 Engr. Virgilio S. Luzares Distribution Design May 13 & 14 Engr. Raul Balogal & Engr. Carl Aquino Harmonics: Theory, Problems & Solutions May 27 & 28 Engr. Marvin Ryan Bathan Power Transformer Theory, Connection & Testing May 28 & June 4 Engr. Vincent Jimenez Power Quality June 10 & 11 Engr. Ramuel Camanay Electrical Installation, Wiring & Lighting June 10 & 11 Engr. Virgilio S. Luzares SCADA System June 24 & 25 Engr. Philip Marvin D. Joven & Engr. Frederic G. Matibag Electrical Grounding and Bonding June 24 & 25 Engr. Jaime Mendoza
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PRESIDENT’S Report
From the Office of the National President ENGR. ARMANDO R. DIAZ
The Institute is on its new year of formulating and implementing activities that will realize the mission and
vision of the Institute. With an aim of marking another year of providing quality service to our members in enhancing human welfare, and of creating an impact through modern innovation, the Institute welcomes all the challenges and difficulties that may arise on its way to excellence. As the first quarter is coming to an end, the Institute has progressively moved on its primary thrust for this year with on “Electrical Safety”. I. IIEE GOVERNANCE A. 2011 Committee Strategic Planning The Institute conducted its 2011 Strategic Planning last January 8, 2011 at the IIEE National Office. It was attended by the different Standing and Ad Hoc Committee Chairmen and Members. During the said planning workshop, the committees were divided into groups,
with their Overseer as their facilitator. Each group formulated their year-long objectives, plans and programs for the Institute. B. Planning Committee Meeting The 2011 Planning Committee chaired by Former President Engr. Arthur N. Escalante, held a meeting last January 15, 2011. The committee reviewed the strategic plans and objectives of the
different IIEE Committees, which were first formulated during the 2011 Strategic Planning held last January 8, 2011. The committee further consolidated the estimated expenses of the programs through the Finance Committee. This is to formulate and come up with a budget for the plans and programs for 2011. C. 2011 Board of Governors' Team Building and Orientation With an aim of enhancing the teamwork, developing camaraderie and harmonious working relationship, and providing a venue for mingling and geting to know each other, the 2011 IIEE Board of Governors held its Team Building last January 21, 2011 at the MMLDC. The orientation for the new members of the IIEE Board was held on January 22, prior to the 1st Regular Board Meeting. The orientation aimed to provide an overview of the Institute’s Policies and Implementing Rules and Regulations the IIEE conduct of activities in the regions.
The Board of Governors during the Team Building last January 21, 2011 1st QUARTER 2011 THE ELECTRICAL ENGINEER
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PRESIDENT’S Report
D. Regular Executive Committee Meeting and Regular Board Meeting The IIEE Executive Committee(ExCom) composed of the National President, as the Presiding Chairman, Vice President for Internal Affairs, Vice President for External Affairs, Vice President for Technical Affairs, National Secretary and National Treasurer, regularly conducts a monthly meeting to discuss different issues concerning the IIEE Standing and Ad hoc Committees, external linkages, general membership and secretariat and other operational concerns. The Board of Governors, composed of the members of the Executive Committee, including the National Auditor and Eight (8) Regional Governors hold its monthly regular board meeting for the quarter to discuss and approve matters in relation to the objectives of the Institute and other matters in accordance with the Institute's policies and implementing rules and regulations. II. IIEE ACTIVITIES REGIONAL CONFERENCE The Central Laguna Chapter successfully hosted the Region IV 12th Regional Conference last March 17-19, 2011 at Paseo Premiere Hotel, Sta. Rosa Laguna. It was attended by more than 200 delegates coming from the different chapters of the Region.
The Institute encouraged the Regional Governors and host Chapters to include the Academe Forum, Student Forum and technical topic on 'How to Become A Professional Electrical Engineer' by the Board of Electrical Engineering in every regional conference and convention. CHAPTER ACTIVITIES The Regional Governors regularly submitted their monthly reports that includes the activities being conducted by the chapters in the region. Some of the chapter events are featured in this issue. The Institute encouraged the chapters to formulate and implement activities in line with the electrical mission, as the primary thrust of the present administration. IIEE-ELECTRICAL FIRE COMMITTEE The Institute, represented by the National President, together with the IIEE- Electrical Fire Committee Chairman, Engr. William J. Juan, IIEE Region 1 Governor, Engr. Francis R. Calanio and IIEE Former Region I Governor, Engr. Dominador Valmonte, Jr. conducted a fact-finding investigation on January 12, 2011 on the fire incident that burned down the Sunshine Motorcycle Parts and the Sunshine Bed and Breakfast Pension House, last December 19, 2010. The team was called by the IIEE CagayanKalinga-Apayao Chapter, upon its receipt of a letter from the DILG Fact Finding Investigation, requesting for assistance from the IIEE National Office to conduct an assessment on the said incident.
In relation with this, the committee formulated its
Outreach Program on Free Electrical Inspection for different business establishments. PROGRESS ON THE IIEE NEW BUILDING The Ad Hoc Committee on IIEE New Building conducted several meetings to discuss the requirements on permits for the construction of the IIEE New Building. The soil testing of the site where the proposed building will be constructed was also completed and the committee will further focus on the marketing campaign to solicit funds for the IIEE New Building. IIEE COUNCIL OF STUDENT CHAPTERS The IIEE CSC successfully held its National Student Convention (NSCON) last February 23-25, 2011 at the Adamson University. The NSCON included the 10th National Math Wizard and 24th National Quiz Show. The event is also featured in this issue. The CSC also conducted its Orientation for the next set of National CSC Officer SY: 2011-2012. III. EXTERNAL LINKAGES International Copper Association South East Asia (ICASEA) The IIEE and the International Copper Association- South East Asia (ICASEA), a non-profit organization that has a vision of inspiring the world about copper's essentiality for health, technology and the quality of life and a mission to advance copper as the material of choice for current markets and new applications, signed a Memorandum of Agreement (MOA) last February 10, 2011 at the New World Hotel in Makati City.
The 45th Fire Prevention Month Kick-Off Ceremonies held last March 1, 2011.
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PRESIDENT’S Report
The MOA bound these two organizations in spearheading the Electrical Safety Enforcement and Awareness (ESEA) Campaign Project in the Philippines. Last December 2008, the IIEE and ICASEA signed a MOA for the creation of three manuals on Motors & Drives, Transformers and Cables & Wires. On 2010, the IIEE and ICA signed the Addendum to the first MOA, wherein as they decided to continue the cooperation to Phase 2. In this regard, the IIEE will provide speakers to discuss the three manuals during the eight (8) Regional Conferences, National Mid-Year Convention and Annual National Convention on 2011. Furthermore, the IIEE will give free technical CDs containing hard copies of the three manuals, in every regional conference and convention.
DEPARTMENT OF INTERIOR AND LOCAL GOVERNMENT- BUREAU OF FIRE PROTECTION (DILG-BFP) The IIEE Electrical Fire participated in the observance of the 45th Fire Prevention Month with the theme, “Kahandaan Sa Sunog, Tungo sa Kaunlaran” held last March 1, 2011 at the Bahay ng Alumni, UP Diliman, Campus, Quezon City. Last March 26, 2011, IIEE Electrical Fire Committee conducted its 2011 Electrical Safety Forum #1 at Seminar Room A, 3rd floor, IIEE National Office. It was attended by almost thirty (30) electrical practitioners coming from the different fields in the industry. IV. MEMBERSHIP DEVELOPMENT
WELFARE
AND
IIEE TRAININGS
As a part of month-long electrical safety activities of the Institute, the IIEE, in collaboration with the International Copper Association (ICA), held an Electrical Safety Symposium on March 31, 2011 at Meralco Mini Theater, Ortigas Ave., Pasig City, Philippines. The event has an aim to increase the awareness of of Filipino electrical engineers on the importance and other aspects of electrical safety.
With an objective of updating its members on the latest trends in the electrical profession, and of enhancing the professional competencies of the members, the IIEE Continuing Education Committee conducted two (2) technical seminars during the quarter: (1) Substation Design with Resource Speaker: Engr. Virgilio S. Luzares and (2) National Building Code with Resource Speaker: Engr. Fe Barrientos.
Green Building
The schedule of approved technical seminars for 2011 is featured in this issue. The Institute encourages the member to attend the technical seminars and be updated on the latest trends in the industry.
The Institute, through the IIEE New Building Committee Chairman, Engr. Arthur N. Escalante participated in a Symposium on Green Building Ordinance 2009 and Implementing Rules and Regulations by the Quezon City Department of Building Official last February 23, 2011. The symposium has an aim to increase the awareness of general public on understanding the basics of Green Building Standards of Quezon City and at the same time, serve as a guidepost on constructing and retrofitting buildings.
HOUSE BILL No. 4106 The House of Representatives, through Hon. Rufus B. Rodriguez and Hon. Maximo B. Rodriguez,. Jr. introduced House Bill No. 4106 Strengthening the Continuning Professional Education Program that “the Continuing Professional Education (CPE) is essential to enhance and maintain the high professional and occupational, ethical, and technical standards in the practice of the profession” in reference to The Philippine Constitution, Article XII, Section 14. With its commitment of promoting professional development, and upgrading the skills of the licensed and registered electrical practitioners, and maintaining the highest degree of professional practice in the field of industry, the IIEE, sent a declaration of support for House Bill No. 4106. Furthermore, a counterpart bill to House Bill No. 4106 was requested to be filed in the Senate. DZMM & DZRB With its advocacy to halt the increasing number of fire incidents due to electrical reasons, the IIEE Electrical Fire Chairman Engr. William Juan, with the IIEE National President, Engr. Armando R, Diaz were invited by DZMM and DZRB to share their knowledge and expertise on electrical safety last February 13, 2011. The discussion aims to increase public knowledge on Electrical Safety and the dangerous consequences of electrical malpractice.
The participants of technical seminars of Substation Design with the Resource Speaker, Engr. Virgilio S. Luzares
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IIEE News Joint IIEE Electrical Fire Committee and BFP Visits Tuguegarao
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he IIEE National President, Engr. Armando R. Diaz, together with the IIEE-Bureau of Fire Protection Chairman, Engr. William J. Juan, IIEE Region 1 Governor, Engr. Francis R. Calanio and IIEE Former Region I Governor, Engr. Dominador Valmonte, Jr. conducted a factfinding investigation on January 12, 2011 regarding the fire incident that burned down the Sunshine Motorcycle Parts and the Sunshine Bed and Breakfast Pension House last December 19, 2010.
The team was requested by the IIEE Cagayan-Kalinga-Apayao Chapter, upon its receipt of a letter from the DILG Fact Finding Investigation, requesting for assistance from the IIEE National Office to the conduct an investigation for the said incident. Last January 15, 2011, Engr. Diaz called for a meeting of the IIEEElectrical Fire Tuguegarao Fact Finding Committee Comittee at the IIEE National Office.
The meeting was attended by the IIEE Executive Committee; Engr. Alex C. Cabugao, Engr. Ma. Sheila S. Cabaraban, Engr. Larry C. Cruz, Engr. Gregorio Y. Guevarra; IIEE Electrical Fire Committee Chairman, Engr. Williiam Juan, IIEE Former Presidents, Engr. Raymond Marquez, Engr. Virgilio Flordeliza, Engr. Rogelio M. Avenido, IIEE PEC Committee Chairman and Members, Engr. William Yan, Engr. Jesus C. Santos, Engr. Emiliano Marabulas, Engr. Gem Tan, Engr. Arturo Zabala, Engr. Lucio Alejo, Jr. and IIEE Region I Governor Engr. Francis Calanio. The committee, together with the chairman and members of PEC 1 Committee discussed the results of the fact finding investigation and tackled the possible strategies on the conduct of the investigation and how to avoid having similar incidents in the future.
The IIEE Electrical Fire Committee and BFP in Tuguegarao
Pangasinan Chapter Holds Seminar on Basic Occupational Safety and Health The Pangasinan Chapter demonstrated the importance of safety and health through a four-day seminar on Basic Occupational Safety and Health on January 15-16 and 22-23, 2011 at El Jardin Hotel, Lingayen, Pangasinan. Eighteen (18) members and
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52 non members gathered to attend the seminar. Engr. Frumencio T. Tan, a well respected safety consultant discussed about the importance of occupational safety and health. Participants of the Basic Occupational Safety and
THE ELECTRICAL ENGINEER
Health seminar with Engr. Frumencio Tan
1st QUARTER 2011
IIEE News 12th National Student Convention
By: Mary Jane B. Nunez (IIEE- CSC, National Executive Vice- Chairman for Internal Affairs)
The most prestigious event of the
Council of Student Chapter, the 12th National Student Convention with the theme: “Economic Development through Advocacy of Clean and Affordable Electricity”, was held last February 23-26, 2011 at Adamson University. The four day event was composed of activities that enable the students to boost their academic and non- academic skills. At the same time, they were given the chance to practice Unity, Camaraderie, and Solidarity with other student chapters. The Field Trip took place on February 23, 2011. With 28 students from four participating schools, they visited Columbia Wires, Angat Dam, and Meralco Museum. The said Educational tour aims to widen the participants’ knowledge about the Electrical Engineering Field. The NSC Event proper started on February 24, 2011. The activities on the mentioned day were: 14th Mega Seminar Part 1, 7th Skills Olympics, and Exhibits. The Part 2 of 14th Mega Seminar, 4th IIEE-CSC Pageant, Chapters Representative Meeting and Exhibits were held on the third day, February 25, 2011. February 26, 2011, on the last day, showcased the 8th PEC Quiz Show, Exhibit, Student Achievement Award and Most
Outstanding Student Chapter Award 2011. After all the activities were conducted, the following winners of the competitions were honored: 7th Skills Olympics 2nd RunnerUp
Camarines Sur Polytechnic College-Daet
1st Runner Up TIP-Manila Champion
TIP-Quezon City
The following are the peopke behind the event. They are:
8th PEC Quiz Show Champion
Bicol University
1st RunnerUp
University of Saint LouisTuguegarao
2nd- RunnerUp
Technological Institute of the Philippines- Manila
4th IIEE- CSC Pageant
Mr. Electrical Eng’g 2011
Mr. Daniel Pangolino
Ms. Electrical Eng’g 2011
Ms. Gretchen Beltran
1st RunnerUp
Mr. Paolo Alegre Ms. Katleen Erica Ragonjan
2nd RunnerUp
Mr. Ronnie Santiano Ms. Crisdel Dumpay
The Most Outstanding School Chapter National went to University of Batangas from Region 4.
TIP Quezon City as the Champion of 7th Skills Olympics
Bicol University as the Champion of 8th PEC Quiz Show
The competitions were made possible also by the following Board of Judges and members of the committees for the different events.
7th Skills Olympics: Chairman of the board: Engr. Ariel P. Duran and Board Members: Engr. Dennis A. Salvatus; Engr. Judy Cabacang; Engr. Marcelito Mangaoang; Engr. Claro Arno Royd Sanchez 8th PEC Quiz Show: Chairman of the board: Engr. William W. Yang and Board Members: Engr. Godofredo E. Eisma ; Engr. Gem J. Tan; Engr. Jesus C. Santos 4th IIEE- CSC Pageant: Engr. Ariel P. Duran, Mr. Jeffrey Jadormio & a representative from Careline Cosmetics. Through the untiring and unwavering support of the student – members, the unconditional dedication of the national and regional officers, who are working as one; the NSCON marked another milestone in the history of IIEE – CSC which is sure to continuously grow to unite and prove benefits for electrical engineering students.
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IIEE News Central Laguna Hosts Region IV 12th Regional Conference
The
Central Laguna Chapter demonstrated its dedication to the electrical mission as they hosted the 12th Region IV Conference, under the leaderships of Engr. Eduardo Emata, Chapter President and the Lady Governor of Region IV, Engr. Roselyn C. Rocio last March 18-19, 2011 at the Paseo Primiere Hotel in Sta. Rosa, Laguna.
March 12, 2011. It was sponsored by Integrated Power & Control Provider , Inc., Newton Electrical Equipment Co., Inc. and Micromatic Industries Inc. The Champion in Basketball was Southern Cavite Chapter and Runner-up was Central Laguna & Batangas Chapter. The champion in tennis was Northern Laguna Chapter and runner-up was Cabuyao Tennis Club.
The two-day event marked another success through the collaborative efforts of the chapters in the region, and the dedication and support from the Chapter Officers and Former Regional Governors. Almost 200 delegates coming from the different regions participated in the two-day conference prepared by the Central Laguna Chapter with an aim of bringing the latest innovation and developments in the electrical industry to its members.
The conference was formally opened on March 18, 2011 and was supported by the Chapters in the region through their chapter presidents and other representatives.
Prior to the conference proper was, a Sports Olympics: Basketball and Tennis, were held at Cabuyao Sports Gym last
Engr. Eduardo Emata and Engr. Roselyn C. Rocio, welcomed all the delegates, guests, National Officers, Regional Governors, members of the Board of Engineering, former region IV officers and sponsors who attended and actively participated in the conference. Engr. Armando R. Diaz, Incumbent IIEE National President presented
the thrust of the Institute for this year. He presented the W.E.N.S as the primary thrust of the Institute in all its undertaking. W- stands for Welfare, EEcology, N- stands for the Neo Policy and S- Support. He further encouraged the members to come up with activities that supported the “electrical mission”. Designated Undersecretary and Head of SPIAMO of the Department of Finance (DOF), Hon. Vicente Nieva Biego, was represented by Sr. Superintendent Marcelino Llamoso from JG Summit Petrochem. In the message that was read by Sr. Supt. Llamoso, Usec. Biego emphasized the important role of electrical practitioners towards economic development. He further commended the Institute's 2011 Theme, “Economic Development Through Clean and Affordable Electricity”, as also one of the primary thrust of the Philippine government. To close his message, Usec. Biego, through Supt. Llamoso, invited delegates to pray for the victims of devastation in Japan. The Opening Ceremonies also included the presentation of ICA Manual for Transformer, Motors & Drives, and Wire, & Cables by Engr. Alex C. Cabugao, Engr. Rene Ong and Engr. Arthur Lopez, respectively. After the presentation of the three manuals, Engr. Meleusipo Fonollera, 1988 IIEE President, discussed the topic “Nuclear Energy Review”. As part of the Institute's program to encourage the Registered Electrical Engineers to be Professional Electrical Engineers, the topic “How to Become A Professional Electrical Engineer” was discussed by Hon. Francis V. Mapile, Board of Electrical Engineering Member.
From L-R: Region IV Governor, Engr. Roselyn C. Rocio, Central Laguna Chapter President Engr. Eduardo B. Emata, Jr.. IIEE National President, Engr. Armando R. Diaz and Sr. Superintendent Marcelino Llamoso
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IIEE News
Participants of the technical sessions
Simultaneous technical sessions were conducted in the three function rooms of the venue. Among the technical topics discussed during the simultaneous technical and plenary sessions were (1) Short Circuit Calculation (Simplified Technique); (2) Proper Grounding and Grounding Maintenance; (3) New Fire Code of the Philippines; (4) Electrical Inspection Guidelines and Permitting Updates for Industrial Plants; (5) EPIRA and Open Access; (6) Building Power and Distribution, Renewable Energy Opportunities; (7) Substation Maintenance and Operation; (8) Substation Safety Practices; (9) Electrical Lock-Out Tag-Out; and (10)
Practical Electrical Safety. Twenty-four (24) exhibitors participated in the exhibition featuring the latest products and services that the present industry could offer. Exhibitors included such companies as Automation Security Inc., Asia Corrosion Services Inc., Asiaphil Group of Companies/GTB Industrial Network, Inc., Barrier Software Services, CHINT Electrical, Cititel Technologies, Dawn Crystal Enterprises, Electromasters, FAVI, FILINVEST, Gadswork Technologies Inc., Infinitech Trading & Services Ltd., Innovalite Electrical Enterprises, JJ-LAPP Inc., Monrio Industrial Sales, Parque Espana, RPV Electrotechnology Phils. Corp., RESONANZ TG., Solar Power Corp., Spectrum Scientific Corp., Tetrad Electrical & Industrial Services Corp., TOMIFUJI, IIEE Region IV Merchandize & IIEE National Secretariat. Fourteen (14) companies presented the latest innovations in the industry before the delegates and participants of the convention during the technical review sessions. Among these notable companies were ABB, JJLapp, Asiaphil, FAVI Energy Savings on Compressed Air System, FMIDC, Quickflo, Scheneider Electric, Solar Power Corporation, PPI Pazifik Power, Inc., Yatai International Corporation, Panasonic , Dawn Crystal Enterprises and GADSWORK Technologies, Inc. The conference also included different
student activities that showcased the talents of Region IV CSC and further enhanced their skills. Activities included were Silver Horizon Film Showing and Poster Making Contest. The winners of this year's poster making contest were: First Place , Lyceum of the Phils.- Cavite; second place, TUP Cavite; and third place, Lyceum of the Phils. Team B. The region also hosted the 3rd Regular Board Meeting, Chapter President's Meeting and Region IV Council of Former Governors and Former Chapter Presidents Meeting. Different concerns with regards to membership welfare and other related concerns were discussed in the meeting. The Region IV Skills Olympics was also held as part of the conference. Participating teams exhibited their skills in building wiring connection and motor control. The winners of the Region IV Skills Olympics are: Colegio De San Juan De Letran – Calamba as the Champion in the student division and in the industry sector, LIMASALA Safety Equipment and Electrical Services Inc. was the champion. The Closing Ceremonies included the awarding of Best Exhibitor, Skills Olympics and Student Poster Making Contest. Engr. Jesus M. Redelosa, 2001 Region IV Governor graced the occasion as the Guest Speaker to showcase the success of engineers from Region IV. Before formally closing the two-day event, Engr. Roselyn C. Rocio extended her warmest appreciation to all who had given their enormous contribution towards the success of the annual event, instilling among members the vitality and importance of a “TEAM”.
Participants of Region IV Conference Skills Olympics
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IIEE News IIEE Incites “Electrical Safety” to An Awareness Campaign The Institute of Integrated Electrical Engineer of the Philippines (IIEE), being devoted towards nation building and general public safety, took on a very important role in the observance of this year’s Fire Prevention Month collaborating with the Bureau of Fire Protection (BFP) and private firms such as the International Copper Association (ICA-Philippines, Southeast Asia and China Chapters) to patronize anti-fire incidents resulting from electrical system abnormalities. The Institute has conjoined forces with these other concerned organizations to possibly educate a great fraction of the population on the facts of electrical fire and its preventive measures. On March 26, 2011 - The IIEE’s Bureau of Fire Protection Committee held the “Electrical Safety Forum #1” at its national office in Cubao, Quezon city aiming to educate further technical practitioners and private individuals in the perpetration of their works not to consider less the safety aspect of the end users as well as to accentuate their familiarity with the standard requirements in electrical installations. The forum has gathered almost 30 participants from the different fields in the industry. A special appearance from the Chief of the Singapore Fire Department, Mr. Tan Jin Thong, shared the various fire cases widespread in his country due to electrical abnormalities and lack of regular safety assessments from experts while the local Chief of Fire Safety Enforcement Division from the Phil. Bureau of Fire Protection, Engr. Mariano V. Joseph, enlightened the room about the statistics of fire incidents in the country with accounted damages translated to millions of monetary value and hundreds of claimed lives. From the Board of Electrical Engineering (BEE), Hon. Jaime V. Mendoza reiterated the compliance to the existing Philippine Electrical Code on the subject of ‘Bonding and Grounding’ and pointed out how improper grounding would consequently destabilize electrical systems and
implicate a vast scope of collateral damages. Also from the BEE, Hon. Francis S. Mapile signified the aspect of Construction Safety which should not be set aside. In line with the Institute’s advocacy still on Electrical Safety, it has signed an agreement with the International Copper Association – South East Asia Chapter (ICA-SEA), also a non-government and nonprofit organization in the presence of the IIEE President, Engr. Armando R. Diaz, and the ICASEA Chief Executive Officer, Mr. Steven Sim, dated February 10, 2011. Under such partnership, both parties have concurred to embark at a project termed the “Electrical Safety Enforcement and Awareness (ESEA) Campaign” in the Philippines. This generous intention of the involved would constantly enhance the capacity of local safety enforcers, augment public awareness, and strengthen the enforcement of electrical regulations. One momentous event spearheaded by the IIEE and ICA was the ‘Electrical Safety Symposium’ last March 31, 2011 at the Meralco mini theater in Pasig City. The occasion has had congregated over 64 participants from the different chapters of the Association of City and Municipal Electrical Engineers and Electricians (ACMEEE) of the Philippines, the Bureau of Fire Protection, and Safety Engineers from the industry. The Project Manager for South East Asia Building Wire Program and in charge of the electrical safety and connectivity program in China, Ms. Jessie Lei, took the pleasure to introduce the international scaffolding of the ICA organizations and the underlying principle behind it.
Participants of the Electrical Fire Safety Forum at the IIEE National Office held last March 26, 2011
by their research in China, include arc shorts, loose connections, harmonic influence – overload of the neutral line, bad heat radiation and electrical facility arrangement. Referencing on statistics though, the major cause of electrical fires in China is attributed to loose connections accounting to about 8.98% from 2003-2007. The final speaker of the event, Mr. Chen Kun, has had several and almost simultaneous affiliations in the China wires and cable industry. His emphasis was on the issues on the application of Copper-Clad Aluminum conductor. A highlight in his report regarding the choice of conductors, it is imperative that any decision considered should not neglect nature’s scarcity of resources. As a major principle “from grave to cradle” implies, there should be an application of just a single conductor, either Copper or Aluminum, as far as practicable, to avoid wasting of inseparable bimetal composite of conductors.
Notable insights from the current Director of Fire System Research Office of the China Academy of Building Research, Mr. Li Hongwen, were centered on the ‘Preventive Inspection Technology on Electrical Fires ‘and their research. Some of the mentioned causes of Electrical Fires, as corroborated Participants of Electrical Safety Forum held at the MERALCO Mini Theater last March 31, 2011
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1st QUARTER 2011
Call for
TECHNICAL PAPER
The Institute of Integrated Electrical Engineers of the Philippines, Inc. (IIEE) is currently on the lookout for technical papers that will present theory and application in the field of electrical engineering. The papers are intended to help electrical practitioners, who are professionally involved in the electrical, electronics, energy and allied industries, and find ways and means to meet the challenges presented by the merging new technologies and global trends. The deadline for submission of abstract and draft of paper on June 30, 2011 while the notification of selected papers is slated the month after. Meanwhile, the submission of final paper for reproduction is due on August 31, 2011. All papers will be subjected to a peer review process.
• • • • • • • • • •
practices, practice of foreign electrical practitioners, etc.) Safety (Electrical & Others) Renewable energy Energy efficiency (e.g lighting power, practices, etc.) Power quality Demand side management Power sector deregulation System loss reduction Rural electricification Energy policy Emerging technologies
B.Title, Abstract, Keywords, Address, Biographical Notes Please assist us by using the following guidelines: • • • •
GUIDELINE FOR AUTHOR/S: A.Typescript Preparation Three files should be submitted in hardcopy of electronic format
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Titles: as concise as possible Abstract: approximately 100-150 words Keywords: approximately 10 words or phrases Author’s current affiliation (with position, name of institution, full postal address, email and contact numbers) Biographical notes: approximately 100 words per author, maximum of 150 (attach a two-page curriculum vitae )
The selected technical papers will be presented during the 36th Annual National Convention of the IIEE participated in by at least 1,000 convention delegates coming from all over the Philippines and overseas. In addition, the same papers will be published in The Electrical Engineer Magazine, with 28, 000 circulation mailed directly to all IIEE active members and partners. To submit a paper, you may send it to:
C. Reference and Notes File 1. The title of the paper, plus the names, affiliation and complete addresses, • Use endnotes only e-mail and fax number of authors, and an • Reference sources should be cited on abstract, keywords, and brief biographical books, articles, journals, speeches, notes about the author including one (1) reports, thesis, and other published passport-size black and white or colored works used in preparing the paper picture with white background. • Full reference should include all authors’ names and initials, date of File 2. The text of the paper, including text publication, title and issue number (Arial, font size 11) acknowledgements, (of a journal), publisher and form references, notes. Tables, figure captions, The IIEE Convention Bureau – Technical (books, conference proceedings), figures. Sessions Committee at e-mail: page numbers. administration@iiee.org.ph or technical@ File 3. The presentation file for the paper iiee.org.ph or postal mail: IIEE Bldg. #41 D. Cost in MS Power Point or equivalent for audioMonte de Piedad St., Cubao, Quezon City All expenses, such as transportation visual presentation. A 30-minute allotment Philippines IIII. (e.g. air, inland, transit), board and lodging will be given for the lecture and 15 minutes in the Philippines of the author shall for the open forum. Subject Coverage: be shouldered by the author or his/her Topics of interest may be in one of the sponsoring organization. The original typescript should be following electrical engineering specialties: submitted electronically in A4 size format, • Power generation All Inquiries may be directed to: with a word count of at least 2,000-2,500 • Transmission IIEE Convention Bureau – Technical (excluding figures), with a double-spaced • Distribution Sessions Committee typing preferred and a one-inch margin on • Power System (planning, operation, E-mail: technical@iiee.org.ph or all sides. control of monitoring) administration@iiee.org.ph • Industrial commercial power Phone Numbers: +632 727-3552 All papers must be written in English. • Control, metering, protection and tests + 632 448- 5211 If English is not your first language, Facsimile Numbers: +632 410-1899 please ask Engligh-speaking colleague to Other Topics + 632 721 6442 proofread your paper. • Consultancy/design (Transmission, Postal Address: IIEE Bldg. #41 Monte de Distribution, etc.) Piedad St., Cubao Quezon City, Philippines • Professional issues (RA 7920, ethical 1st QUARTER 2011 THE ELECTRICAL ENGINEER
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A Tribute to Engr. Edward L. Mendoza
He had a passion for excellence, surpassed only by a passion for learning.
The preceding sentence would most appropriately describe Engr. Edward L. Mendoza. He proved that one is never too old to learn. He coped well in the fast-paced world of innovative concepts and electronic gadgets. While he continuously improved himself, he improved others as well. He mentored many graduates as well as new professionals. He motivated those who have met with adversity and those who were scared to take that one big step. He was always willing to help. He believed in “paying it forward.” He was Teacher, Mentor, Partner, Friend, Adviser, Father, Brother. Engr. Mendoza was a Professional Electrical Engineer and a Certified ASEAN Engineer. Under his leadership as president of IIEE in 1996, the IIEE, in partnership with the Board of Electrical Engineering (BEE), became actively involved in the dissemination and implementation of RA 7920, known as the “New Electrical Engineering Law”, through various lectures and dialogues conducted during IIEE’s regional conferences and conventions. It was also in 1996 when the Ozone Disco Club fire tragedy occurred, where more than a hundred young people perished. Engr. Mendoza appeared as an expert witness during the Ombudsman hearings on the Ozone fire. Also, during his term, the current IIEE By-laws were passed. A major provision of the new by-laws was the formation of the Council of Former Presidents (CFP), composed of former IIEE National Presidents who are still active in the affairs of the Institute. Since then, the CFP has served as Adviser to the IIEE Board on national issues. The creation of IIEE’s first foreign chapter, IIEE Saudi Arabia, also materialized during Engr. Mendoza’s incumbency. Other milestones during his term were: (1) the formation of the Convention Bureau, which takes charge of all arrangements, preparation and activities during each IIEE Annual National Convention, (2) the resumption of fellowship activities during the mid-year and national convention, (3) the renaming of the Board of Canvassers into COMELEC, (4) the holding of turn-over ceremonies, and (5)the active involvement of the IIEE Ladies Auxiliary. After his term as IIEE National President, he was elected as National President of the Society of Philippine Electrotechnical Constructors and Suppliers Inc.(SPECS) in 1998, 1999 and again in 2006. Engr. Mendoza served as member of the Board of Electrical Engineering, under the Professional Regulation Commission (PRC), from 2002 to 2009. He also served as president of the ASEAN Federation of Electrical Engineering Contractors (AFEEC) from 2004 to 2007 and an officer and, later, lifetime-adviser, of the Federation of Asia-Pacific Electrical Contractors’ Association (FAPECA). Both organizations are composed of contractors of ASEAN nations. The members meet annually in one of the ASEAN member-countries. He was a consultant of the Department of Public Works and Highways (DPWH) for the revision of the Implementing Rules and Regulations of the National Building Code. Engr. Mendoza also served as the Chairman of the IIEE Training Institute. He also served as the President of the IIEE Foundation (IIEEF) from 2001-2005.
ELECTRICAL ENGINEERMAGAZINE 1st QUARTER 2011 1414THE THE ELECTRICAL ENGINEER 2ND QUARTER 2010
Engr. Mendoza was tireless and prolific as a lecturer on various issues, among which are RA 9136 known as the Electric Power Reform Act (EPIRA), RA 4566 known as the Contractors’ Licensing Law, RA 7920 known as the New Electrical Engineering Law, and PD 1096 known as the National Building Code (Electrical Provisions). As a member of IIEE’s Advocacy Group, Engr. Mendoza organized in September 2010 the well-attended forum entitled: “Powering Up for Open Access: An Assessment of Retail Competition and Open Access Readiness of All Electric Power Industry Stakeholders.” The forum aimed to draw out from the participating stakeholders their pending concerns and to assess their readiness for retail competition and Open Access and to provide guidance for the implementing government agencies in formulating appropriate rules to ensure the successful implementation of retail competition and open access. It was supported by the different distribution and utility companies and concerned government agencies. At the time of his passing, Engr. Mendoza was the President and Chairman of the Board of ENERGYOPT INC., a pioneering knowledge process outsourcing (KPO) company engaged in energy portfolio management and the buying of power. He was also President and Chairman of the Board of DSM Energy and Efficiency Solutions, Inc. , which provides consultancy services for demand side management and energy efficiency initiatives. Following are excerpts from emails sent to the family: Ed was a very passionate guy when it comes to work, especially for the welfare of his colleagues in the electrical engineering industry. He unselfishly shared his time, talent and even his resources to help in the development and advancement of the electrical . . . From then on, he never declined another practitioners, which, eventually, will improve the Filipino nation - Francis Mapile invitation to sing. In fact, when everybody was warmed up, we could not stop him from . . . He had a very positive outlook in life and a very singing. Before long, he became known to us good sense of humor. . . He was very passionate as the Filipino who does not stop singing. We and dedicated as he put his heart and soul in all shall greatly miss him. On the other hand, his the things he did – this truly inspired all the people singing and his signature smile will always around him. He will forever be remembered stay with us. - Chun-Kay Lau, HKECA, FAPECA through all the great work he has done, all the hearts he has touched, and all the precious Ed was also very good company, professionally and socially with Karaoke memories we shared with him. – Kathy Mendoza being his specialisation. This good natured approach broke down many He is such a nurturing boss, I learned all the facets of basic barriers, ensured outcomes were delivered and created solid bonds. In management in Interface, from Administrative to Basic this vein during a FAPECA meeting in Vietnam, over a few beers was Accounting, Marketing and Purchasing. Where I am now formed the 4 musketeers of Ed (Philippines), myself (Australia) with in my career and how I become successful in my own right James Kang and Yon Bradford of Korea. – Peter Glynn are all credited to my training from Boss Ed. I learned I think that I would remember Ed Mendoza best for his Elvis Presley from him the work values of perseverance and resiliency, which he manifested to all of us. – Maribel Umali impersonation during our heydays in IIEE. That was really one of his finest moments. – Gigie Penalosa . . .he boosted my confidence especially in public speaking. . . At kahit super dami ng achievements niya, he still remained humble and helpful. What I loved about him is never siya naging madamot sa mga alam niya. He is also known for his "hindi boring" na presentations - Anne Relucio
The family of Edward L. Mendoza invites the readers to share with them stories of how Engr. Mendoza touched their lives by emailing them to memoriesofedmendoza@gmail. com. Comments on this article may also be sent to the same email address.
Congestive Heart Failure (CHF) is a disease, usually, of unknown causes. Ed believed that his CHF was aggravated, or even probably caused by his obstructive sleep apnea. He volunteered to campaign for better awareness of the possibility that obstructive sleep apnea is a culprit in many diseases. Sleep apnea, which is common to snorers, is a condition whereby the flow of oxygen to the vital organs is obstructed due to many causes. It is important that you have yourself checked for this condition, and maybe improve, if not altogether save, your life.
1stENGINEER QUARTER 2011MAGAZINE THE ELECTRICAL ENGINEER2010 15 THE ELECTRICAL 2ND QUARTER 15
Cover Story
From
“Di-yar-yooooo!” to CEO
“He who goes out weeping, carrying seed to sow, will return with songs of joy, carrying sheaves with him.” -Psalm 126:6 By Gil R. Miranda “Di-yar-yoooo!” is a common street sound. It is an urban symphony in a variety of traffic sounds in a busy city street. It is the sound of a new day -another life’s struggle. To some it may be a sound of hopeless effort to survive, a cry of despair. To Armando R. Diaz, it was once an optimistic window of hope.
from the hells of dearth, he then pressed his way to college by blowing notes in a trombone reed.
Armando R. Diaz is a radio ham, a gun enthusiast and a professional elecrical engineer. For him, the sound, “Di-yar-yoooo!” is a reminder of his early childhood and his initial steps on a stairway that will lead to his dream.
As soon as he stepped down from MIT’s graduation stage, Engineer Armando R. Diaz’s career as an electrical engineer immediately began. He was a Start-Up Engineer at Honeywell Instrumentation in
He played baritone in the college band. In 1973, he graduated with a degree in Bachelor of Science in Electrical Engineering at the Mapua Institute of Technology.
1974-79. Five years later, he became a chief engineer at the International Rice Research Institute, where he designed and supervised the operation of Phytotron, the first bioclimactic laboratory in the Far East. He might have missed the cruel challenges in the callous streets of Malabon that he dared to venture into more stimulating tests of his abilities. In 1992 to 1994, he supervised and handled the operation of Ramada Hotel’s Refurbishment Project as a Chief Engineer. In 1994 to 2001, he was Assistant Vice President for Engineering of Uni-Lonseal-Mitsui
A son of a humble cigar maker and a plain housewife, he is the fourth child in a brood of six. He saw his youth running barefoot, wading in flooded streets of the fish port town of Malabon, Rizal on rainy days. And during summer, he would burn his foot soles on the blistering heat of asphalt roads selling newspapers to keep himself in school. In 1968, after a seemingly endless struggle, he finished at the Arellano University. Settled on breaking away The National Mid-Year Convention held in CAP Convention Center, Davao City
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1st QUARTER 2011
Cover Story
Engr. Armando Diaz together with the other members of the IIEE Executive Committee during their courtesy visit on ERC
(Phl-Japan Co.) handling the startup, commissioning, supervision and operation of Calendar Six’s P220M Expansion Project . In 2001 to 2007, he was the Engineering Manager of Universal Robina Corp. (BOPP Division) responsible for the startup, commissioning, supervision and operation of its Line 2 Expansion Project, which was a P6.0B investment by J.G. Summit.
the Philippines, 2006 IIEE Grade of Fellow and 2010 Most Oustanding Alumni, MITEEAA. While Engineer Diaz’s romance with the Institute of Integrated Electrical Engineers (IIEE) stated in 1978, it was in the year 2006, when he was elected as IIEE’s Governor at Large, that true love bloomed. He decided to resign from Universal Robina
Corp. to give more service time to the Institute. Engr. Armando R. Diaz’s service record in IIEE showed that he became president of the Institute’s Laguna, Batangas, Cavite Chapter in 1978, barely a year after he joined IIEE. From a thriving single chapter, he worked to expand the organization into flourishing thirteen chapters. After which, he handled other responsible positions in IIEE. He was Region IV Governor in 1983, National Auditor and Treasurer in 2007, Vice President for Technical Affairs in 2008, Vice President for Extenal Affairs in 2009, Vice President for Internal Affairs in 2010 and finally the National President in 2011. Truly an electrical engineer in heart and soul, Engineer Diaz’s vision is now focused on new avenues for IIEE to trek on its quest towards nation building and the espousal of progress in modern industry. As he takes over the helm, he drew what he called the 4-circuit program, which aims to give more muscle to the institute,
Presently, Engineer Armando R. Diaz is a Director and CEO of various companies involved on Design, Consulting Services and General Construction. Engineer Armando R. Diaz holds licenses in Professional Electrical Engineering. He is a Certified Plant Mechanic (First Place) and an Accredited Pollution Control Officer. He is also an ASEAN Engineer with Registration No. 408 awarded in 2007. Engineer Armando R. Diaz is a proud recipient of important awards such as 1998 Most Oustanding Electrical Engineer Practitioner in Industry of
Engr. Armando R. Diaz awards the Plaque of Appreciation during the 3E Xpo 2009
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Cover Story N-eo
Policies aimed at updating non-functional organizational management and executive policies and create novel contemporary guidelines that would better benefit the organization and advance at its best the Institute’s objectives.
S-
The IIEE Board of Governors take their Oath of Office during the Closing Ceremonies of the 33rd Annual National Convention
advocate membership strength and professional conpetence, pencil in few functional policies, and emphasize the reduction of the industries’ carbon print on the environment. THE 4-CIRCUIT PROGRAM The 4-Circuit Program is IIEE President Engr. Armando R. Diaz’s line up of activities envisioned to advance the functions of the IIEE and rightfully lead the organization towards the triumphant achievement of its objectives. Aimed to carry out the organization’s nationwide service to its members and the community, the program spreads in four service spheres conferred as circuits and given the acronym WENS, which could also mean West, East, North and South signifying the direction addressed to the four corners of the country where its members settle and practice their professions---areas IIEE intends to reach. The 4-Circuit Program encompass.
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W- elfare which inspires to advocate
the members’ professionalism and well-being. This also concerns the members’ advancement in the performance of their day-to-day expertise, duties, and responsibilities, assuring excellence in their field and aptness to modern day technological standards and requirements.
upport on the other hand covers the enhancement of the organization’s financial position and the creation of innovative schemes to pool in more funds for the prudent implementation of projects harmonious with the organization’s goals, the interest of the members, and contributory to the progress of the nation. This term promises sincere and wise implementations of programs related to these circuits and give the Institute a new image that would reflect its members’ professional capability and recognize the Institute’s role in nation building and progress continuance.
E- cology which is directed towards the necessary human awareness in environmental balance and sustainable energy, adoption of new methods, research support, and the practice of sound and devout utilization of non-renewable energy.
THE ELECTRICAL ENGINEER
Engr. Armando R. Diaz during the Committee Planning
1st QUARTER 2011
People & Event
The Negros Oriental Chapter held its 1st Planning Meeting with Engr. Lelanie T. Mirambel, Region VII Governor. The Negros Oriental Chapter will be the host of this year’s Region VII Conference.
Engr. Roselyn C. Rocio, Region IV Governor, visited the Northen Laguna Chapter during its 1st General Membership Meeting at HO Chai Lai Resturant, Brusmick Place, Balibago, Sta. Rosa, Laguna last Feburary 22, 2011
Region VIII Governor, Engr. Rey G. Paduganan, conducted a courtesy visit with the Professional Regulation Commission Region X Director, Dir. Estrella Malik.
Engr. Ronaldo Ebrada, Region V Governor, visited the Catanduanes Chapter during its 1st General Membership Meeting last Februay 11, 2011 at Kimji Resort, Virac, Catanduanes.
The IIEE Council of Student Chapters (CSC) during the Orientation for the aspiring CSC Officers for SY. 20112012.
Engr. Virgilio S. Luzares, Region II Governor, administered the Induction of IIEE Bulacan Chapter Officers and Board of Directors last January 22, 2011 at D’Arks Restaurant, Marilao, Bulacan.
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Region IX Governor, Engr. Victorianito E. Teofilo, presided the 1st Chapter President’s Meeting in the Region last February 25, 2011 at Bamboo Corner Grill, Davao.
1st QUARTER 2011
The IIEE Electrical Fire Committee held its Electrical Safety Seminar last March 26, 2011 at Seminar Room A, 3rd Floor, IIEE National Office.
Quarterly Industry News Digest Meralco Clarifies Settlement Agreement Issue February 16, 2011
Meralco clarified reports that an injunction order issued by resolution of the petition filed by the OSG before the Court of the Court of Appeals (CA) indefinitely stops an agreement that Appeals, so as not to render the same moot and academic. would allow Meralco to pass on to its consumers P14.3 billion Meralco emphasized that the Settlement Agreement is valid it owes Napocor. and binding and Meralco signed the Settlement Agreement to In a statement issued today, Meralco clarified that what the CA protect its customers from additional costs since Meralco only did was to temporarily halt the proceedings at the Pasig City paid NPC for electricity that was actually consumed. RTC. It will be recalled that a petition was filed by Meralco with the Pasig City Regional Trial Court (RTC) to seek the declaration The issue on the pass-through of any amount under the of the court that the Settlement Agreement, independent of Settlement Agreement is still within the regulatory authority the pass-through provision which is reserved for approval by of the ERC and outside the jurisdiction of the RTC. In the meantime, however, the ERC has suspended the proceedings the ERC, is valid and binding. on this matter pending the resolution by the RTC of the validity Both the Office of the Solicitor General (OSG) and Meralco are of the Settlement Agreement. Nonetheless, the decision to given 30 days to submit their respective positions on the matter. pass through any amount shall still be subject to ERC approval. The CA is then expected to resolve whether or not to grant the Meralco further clarified that the TRO earlier issued by the CA was not intended to prevent the RTC from enforcing the alleged OSG’s petition to revert the issue to arbitration. Order or Decision affirming the validity of the Settlement Hence, the injunction issued by the Court of Appeals could Agreement, since the RTC never issued any such Order or not have prevented Meralco “from imposing extra charges on Decision. The TRO merely suspended the proceedings at the its customers in order to pay its P14.3 billion liability with the RTC for a period of sixty (60) days, which expired last February National Power Corporation (NPC)” since it was not the subject 1, 2011, while the Injunction only effectively extended the TRO matter of the proceedings before the Court of Appeals or the until the CA is able to decide on the case. Regional Trial Court (RTC). In the meantime, Meralco assured that the injunction order Meralco explained that the injunction was only intended to does not in any way affect Meralco’s delivery of electric restrain the RTC from conducting further proceedings pending service to its customers and does not impact on its rates to its customers. www.meralco.com.ph
ERC amends Rules for Issuance of License to Retail Electricity Suppliers February 28, 2011
The Energy Regulatory Commission (ERC), on 17 February 2011, issued Resolution No. 1, series of 2011 which adopted the amendments to the Revised Rules for the Issuance of Licenses to Retail Electricity Supplier’s (RES). The amendments to the rules resulted from the consideration of comments solicited from industry stakeholders and the general public. The Revised Rules prescribes the qualifications and criteria for licensing suppliers of retail electricity which includes, among others, a demonstration of their technical and financial capabilities and creditworthiness. A RES can start selling electricity only once the regime of open access and retail competition takes place.
related, the capitalization shall be based on the ERC-approved BSUP (Business Separation Unbundling Plan); (c) a mandated 30-day notification to the ERC by a DU if it intends to operate as a Local RES; (d) proof of financial capability if RES applicant is new and an affiliate of another company.
The draft amendments to the Guidelines for the Issuance of Licenses to RES was posted on www.erc.gov.ph for solicitation of comments for a period of thirty (30) days and the second draft for a length of ten (10) days. Major industry stakeholders provided their inputs and concerns and which were considered by the ERC towards this final version. The amended rules The Revised Rules aim to ensure consumer protection and will become effective fifteen (15) days after publication in a enhance competition in the retail electricity market. The key newspaper of general circulation. amendments include the following: (a) the term of RES License is changed to five (5) years; (b) the basis in the computation “The ERC is ensuring that the rules required for a fair and comof the RES License Fee include the capitalization or the total petitive retail electricity market are in place so that a smooth capital invested into the business; or in the event an applicant transition to a regime of open access and retail competition has two or more businesses, the capitalization allocated for the happens,” ERC Chairperson Zenaida G. Cruz-Ducut stressed. supply business; or two or more business which are electricity www.erc.gov.ph
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Quarterly Industry News Digest DOE Allays Fears of Possible Oil Supply Disruption February 24, 2011
The Department of Energy (DOE) has allayed fears about any possible disruption in the oil supply requirements of the Philippines. At the International Energy Forum (IEF) held on February 22, 2011 at Riyadh, Saudi Arabia, Energy Undersecretary Jay Layug re-affirmed the projections of the International Energy Agency (IEA) and the Organization of Petroleum Exporting Countries (OPEC) of the 2011 oil market situation characterized by a high level of spare capacity, in both upstream and downstream, relatively high Organization for Economic Cooperation and Development (OECD) commercial inventories and increases in oil supply. The IEF reiterated the Joint IEA-IEF-OPEC Report on the Symposium Energy Outlooks held last January 24, 2011, also in Riyadh, that oil resources, both conventional and non-conventional, are sufficient to meet future demand. The Republic of the Philippines, through the DOE, has affirmed its support for the IEF Charter that serves as a platform for informal, open, informed and continuing global energy dialogue among its membership of energy producing and energy consuming States. In his formal statement of support on behalf of the Philippines, Layug emphasized the need for promoting a better understanding of the benefits of stable and transparent energy markets for the head of the world economy, the security of energy supply and demand, and the expansion of global trade and investment in energy resources and technology. He also raised the importance of identifying and promoting principles and guidelines that enhance energy market transparency, stability and sustainability. The IEF is the world’s largest gathering of energy leaders from powerful countries accounting for more than 90% of the global oil and gas supply and demand. Aside from the member countries of the IEA and OPEC, other key players are Brazil, China, India, Mexico, Russia, and South Africa. Amidst the unfolding events in the Middle East and North Africa, the unparalleled cooperative discussions and dialogues at the IEF Extraordinary Meeting resulted in further strengthening the roles of producers and consumers to achieve win-win solutions. It is in the interest of global energy security that IEF created an enhanced framework for shared analysis of the dynamics of energy trends and greater data transparency to provide a more in-depth understanding of what is actually happening in the energy market, oil inventories, and movements in supply and demand.
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It is in this context that Layug confidently advises the Philippine consuming public that there are no oil supply shortage issues. Based on official reports, OPEC has assured that there is sufficient global oil supply to address global demand for oil in the short and medium term periods. In its efforts to ensure supply security, the DOE has also obtained assurances from the two major players in the downstream oil industry, Shell and Petron, that there is nothing to worry about. “The current volatility in the market is unfortunately influenced by political events in some Middle East countries,” added Layug. The IEF members encouraged IEA, OPEC and IEF to continue their efforts and take the IEF work forward in order to help mitigate energy market volatility. Mitigating energy market volatility and future uncertainty remains of crucial importance to stabilize energy markets and facilitate energy investment, which would also benefit the recovery of the global economy. This requires further progress on achieving better data transparency in both the physical and financial markets, on putting in place appropriate, internationally coordinated regulation, as well as on arriving at a better common understanding of energy market trends and energy outlooks. The next IEF Ministerial Meeting will be held in Kuwait in 2012. www. doe.gov.ph
The Electrical Engineer Magazine
Bulletin The Electrical Engineer, our quarterly magazine will feature different activities conducted by different Regions and its chapters. With this, we would like all Regional Governors to coordinate with their respective chapters the submission of reports (articles) of all Chapter activities that you would like to be featured in The Electrical Engineer magazine. We would appreciate it if you would send your articles through email at administration@iiee.org.ph or jen.pajutining@ gmail.com on or before the 15th of each month. For further queries regarding the matter, you may coordinate with our Communications Staff, Ms. Jenelyn C. Pajutining at Telephone Nos. (02) 727-3552 loc. 109; (02) 448-5211.
1st QUARTER 2011
Technical Feature
M
Framework for Reliability Evaluation of the Smart Grid by Edwin B. Cano , PEE
assive deployment of information and communication infrastructure in operating, monitoring and control of electric power systems. This is Smart Grid. This is the vision of a controllable, observable and self-healing power system using smart grid technologies. Communication technologies like fiber hybrid and broadband over power line will enable the data and signal transfer from smart meters, automation and control sensing devices, high end system control centers interfaces in a highly visual environment, and intelligent electronic devices (IEDs). Sensing and measurement devices will be employed for which information data flow is aimed at facilitating widearea control and protection (WACP) at the bulk power systems and dynamic control and automation at the distribution level, and other applications such as remedial action schemes, substation equipment monitoring and dynamic line rating. As the National Energy Technologies Laboratory (NETL) reports, one of the benefits of the smart grid is higher level of power system reliability through reducing cost of interruptions by reducing the probability and consequences of widespread blackouts [1]. In this premise, the information and communications infrastructure is assumed to have no failure mode which is not always the case. Seminal work on the new framework of power system security emphasizes that the failure or misoperation of information and communications systems in operating and control of power systems can be fatal as evidence by past experiences of large outages [2]. The following are some scenarios for information and communications equipment failures: • A sensor device utilized in monitoring transmission or distribution outages which failed to send the right signal, or send the right signal at the right time (i.e. failure of information data flow and communication link) may cause further delay in restoration. • A failure of a component of the WACP control system may cause inadvertent action from the automated operator or from the human operator in decision-making (i.e. failure of information data flow and communication link) which may result in unnecessary loss of load or forced outage of an energy resource.
• An erroneous display in the man-machine highly visual interface software due to non-updating of communication packets (i.e. failure of information data flow and communication link) which results in unobservable power system state which renders the human operator blind and thus may produce uncontrollable cascading outages. These are only some of the possibilities of the failure of information and communication technologies when used for operating, monitoring and controlling the electric grid. Conventional power system reliability has three levels [3]. It is assumed. in this case, outages are born out of failures in electrical components. In the past, any failure in information and communications such as malfunction of Automatic Generation Control (AGC), governor and excitation control are charged to the generating resources. For transmission and distribution systems, any protection device error due to communication failure is charged to a transmission and distribution branch or component. This is an acceptable assumption since information and communication equipment is not as massive as with the Smart Grid.
Generation Facilities
HLI Hierarchical Level I
Transmission Facilities
HLII Hierarchical Level II
Distribution Facilities
HLIII Hierarchical Level III
Figure 1. Conventional analysis of levels for power system reliability [3].
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Technical Feature With the high dependence on information and communications technologies in the operation and control of the electric network, we propose a new framework for the hierarchical levels of power system reliability. In the figure below, information and communication facilities are given weight for outages and loss of load in the grid. Unlike in the past, it is appropriate to charge an outage to information and communications facilities especially if the root cause of the outage and further delay of restoration is due to smart grid technologies failure.
The Smart Grid is aimed at increasing the level of the reliability of the electric power network. It is important to quantify the contribution or non-contribution to the level of system reliability thereof of the information and communications infrastructure to be utilized to enable the vision of the Smart Grid. Quantification of the contribution of information and communications facilities to the reliability level may be used to measure the benefits of the Smart Grid. References:
Information and Communication Facilities
Generation Facilities
HLI Hierarchical Level I
Transmission Facilities
HLII Hierarchical Level II
Distribution Facilities
HLIII Hierarchical Level III
[1]National Energy Technology Laboratory (NETL) website on Smart Grid Analysis. [Online] - http://www.netl.doe. gov/smartgrid/index.html [2]D. Kirschen and F. Bouffard, “Keeping the Lights on and the Information Flowing”, IEEE Power and Energy Magazine., Volume: 7 Issue:1. pp. 50 – 60, January-February 2009. [3]R. Billinton and R. N. Allan, Reliability Evaluation of Power Systems. 2nd Edition. Plenum Press, NY. 1996
Figure 2. New framework for analysis of levels for power system reliability considering Smart Grid.
As more and more smart grid technologies are being installed in electric power systems, we foresee equipment reliability data collection to be what is depicted in Figure 3.
Distribution and Communications Equipment Reliability Data Reporting System
Generation Equipment Reliability Data Reporting System
Equipment Realiability Information System Transmission Equipment Reliability Data Reporting System
Distribution Equipment Reliability Data Reporting System
Figure 3. Equipment reliability data collection process considering Smart Grid.
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ABOUT THE AUTHOR Engr. Edwin B. Cano was born in Angeles City, Philippines on March 25, 1971. He graduated from the Technological University of the Philippines in March 2002 with the degree of Master of Engineering in Electrical Engineering. He had his Bachelor of Science in Electrical Engineering at Holy Angel University in March 1993. He is a Professional Electrical Engineer. He is a member of the IEEE-Power Engineering Society and a life member of the IIEE. Previously, he has been a full time instructor at the Department of Electrical Engineering in Holy Angel University from June 1996 to March 2003 where he serves as an Adjunct Assistant Professor in the Graduate School of EngIneering. He is a Principal Engineer B at the Network Protection Department, Luzon System of the National Transmission Corporation in the Philippines since April 2003. His technical interests include fuzzy logic applications in power systems, power system modeling and analysis, and electromagnetic simulation of power systems.
1st QUARTER 2011
Republic of the Philippines Professional Regulation Commission Manila CPE COUNCIL FOR ELECTRICAL ENGINEERING MEMORANDUM DATE
:
25 January 2011
TO
:
ALL ACCREDITED CPE PROVIDERS
FROM : ENGR. FORTUNATO C. LEYNES Chairman CPE Council for Electrical Engineering SUBJECT
:
APPLICATION OF CPE PROGRAMS FOR ACCREDITATION
In connection with the e accreditation of CPE Programs as approved CPE provider pleased be reminded and informed of the following: 1. All programs/activities to be conducted should be submitted for accreditation at least thirty (30) days prior to the date of conduct with complete documents. All applications beyond the thirty (30) days period will no longer be accepted. Completion Reports should be submitted fifteen days (15) days after the conduct of the program. 2. The CPE Council is empowered to monitor periodically the implementation of the programs/ activities. Monitoring may be performed either in coordination with the accredited provider or on the spot monitoring. 3. The accreditation shall be withdrawn from the CPE Provider who: a. is found not complying with the prescribed rules and regulations for CPE, or b. has committed substantial deviation from the approved program(s), or c. has submitted false report(s), or d. has committed such other acts that the Council finds to be in violation of the interest of the program. 4. Through a Memorandum of Agreement (MOA) the Board of Electrical Engineering designated the Accredited Professional Organization (APO) which is the Institute of Integrated Electrical Engineers of the Philippines (IIEE), Inc. as part of the CPE Secretariat in which all applications should be applied through the APO and all applications will be pre-evaluated by the IIEE CPE Council before it will be forwarded to the PRC CPE Council for final evaluation and approval. In view to this all applications should be addressed to:
ENGR. HIPOLITO A. LEONCIO Chairman, IIEE CPE Council c/o CPE Council Secretariat Institute of Integrated Electrical Engineers of the Phils., Inc. # 41 Monte de Piedad St, Cubao Quezon City
Attached herewith are e the Checklist of Requirements and the CPE Forms you need to accomplish. If you should have any queries about CPE accreditation you may contact Ms. Mary Ann B. Guillen or Ms. Marjorie Aguinaldo-Mu単oz, IIEE staffs in charge for CPE at telephone number 7273552 local 107 or you can communicate with them at their email addresses: cpe@iiee.org.ph or mcaguinaldo_4866@ yahoo.com For your information and guidance. Thank you. P. PAREDES ST., CORNER N. REYES ST., SAMPALOC, MANILA, PHILIPPINES, 1008 P.O. BOX, 2038, MANILA
Institute of Integrated Electrical Engineers of the Philippines, Inc. ACADEMIC AFFAIRS COMMITTEE
EE RESEARCH CONTEST 2011 GUIDELINES Objective This contest aims to promote and highlight advancement in the field of Electrical Engineering for sharing new technologies, ideas, and concepts among schools and universities that offers Bachelor of Science in Electrical Engineering.
Eligibility The following are eligible to join the contest • Undergraduate students with faculty adviser • Graduates within the year with faculty adviser • All participants must be an active IIEE member
Conditions of the Contest • This is a group competition • Each group shall be composed of one (1) faculty adviser and at least two (2) students • Presentation MUST BE RENDERED by the STUDENTS • Entry to be submitted must be in accordance with the following categories as stated in these guidelines • STRICTLY One (1) entry per school
Research Category Creative Research – Research should be new, creative, and innovative. Innovative projects/models including machines, gadgets, products, and processes developed by college students and faculty members. These projects/ models should possess features and characteristics that may have significant contribution to the promotion of S & T innovations that are not contrary to
26
THE ELECTRICAL ENGINEER
public order, models, public health, and welfare. Research category/topics must have an EE Application and ARE NOT LIMITED TO, the following: • • • • • • • • •
Renewable Energy* Power Electronics Energy Conversion Energy Utilization and Environment Software Development Instrumentation and Control Mechatronics / Machine Automation Microelectronics Microcontroller-based / Microprocessor-based projects
*Most preferable Contestants shall select only one (1) area they consider appropriate for their entry.
Contest Period and Venue Entries shall be submitted to the IIEE National Office at Monte de Piedad St., Cubao, Quezon City. Last day of submission of entries is on September 15, 2011. Contest Target Date: I IEE Annual National Convention (November 2011)
Evaluation The Academic Affairs Committee shall screen all entries. All entries that passed the screening shall be forwarded for endorsement to the Office of VP for Technical Affairs for final approval.
Judging The Board of Judges may come from DOST, DOE, IIEE and/or other research agencies.
1st QUARTER 2011
Mechanics: • Each finalist is given a 15-minute oral presentation of their research entry • When the 15-minute time allotted for the oral presentation is over, the presenter must stop, even if the presentation is not yet finished • A maximum of 15-minute Q & A period follows after the oral presentation that will be facilitated by a session moderator • The criteria for the oral presentations are as follows: Significance & Degree of Relevance to the EE Profession
30%
Degree of Inventiveness/ Ingenuity
25%
Clarity of Presentation
20%
Extent of Usefulness
15%
Market Potential
10%
• Results of the contest will be announced during the closing ceremonies on November 26, 2011. • The decision of the Board of Judges is final and unappealable. • Non-winners shall be given certificates of merits for participating in the contest. • IIEE is not liable for any violation related to intellectual property rights. For more inquiries, you may contact Mr. Edgardo Salva, Jr. IIEE Trainings Staff Tel. No. (+063) 448-5211,(+063) 7273552 loc. 107 Mobile No.: 0928-5074140 Email address: trainings@iiee.org.ph
BEE Corner
HONESTY: A Lost Virtue? FORTUNATO C. LEYNES Chairman, Board of Electrical Engineering Professional Regulation Commission
In her last lecture of the recent semester, UP Professor Solita Monsod talks to her students about acting with honor and integrity. She further asked them if they think that cheating is very unusual. However, the truth of the matter is that it is becoming “very usual” in the university which “bothers her so much”. She further reminds her students that “cheating in small things is going to lead to cheating in the large things.” Thus, she urges them not to cheat as she emphasized that “as you cheat, you are no longer part of the solution anymore, … and you are going to be very much part of the problem.” These are very encouraging words for the students to contribute to change in our community. However, this is not the case in the licensure examinations, particularly in the September 2010 licensure examinations for Registered Electrical Engineers (REEs). In the “General Instructions” to examinees, CELLULAR PHONES, beepers, portable computers or similar gadgets/devices are prohibited inside the examination premises/rooms. Despite the instruction, several calculators and cellular phones were confiscated by the proctors during the Mathematics
actually that of cellular phones. One of these gadgets even has a camera. When further dissected, a calculator, a Casio fx-100W, was found to have been deliberately tampered and embedded with a Nokia 6700 camera phone. Further examination of the said calculator cum camera phone revealed stored images of questionnaires used in the mock board examinations.
subject of the examination—there were three cellular phones and two calculators found in different testing rooms.
Investigation of the messages contained in the “Sent” folders of all these calculators and cellular phones further revealed messages containing questions actually given in the licensure examinations for REEs
The three cellular phones were in “Silent” mode so that the messages received by the units will not be noticed by the proctors. One unit was deliberately painted white so that it can easily be concealed. While the two calculators look like scientific calculators in plain view, scrutiny of these calculators revealed that the display screens are
1st QUARTER 2011 THE ELECTRICAL ENGINEER
27
BEE Corner
The messages stored in “Inbox” folders contained answers to the questions given in each of the three examination subjects for REEs. While these high technology gadgets have been confiscated in the Mathematics subject, the first subject in the board examinations for REEs, these cellular phones continued to receive messages containing answers to test questions given in Engineering Sciences and Allied Subjects (ESAS) and Electrical Engineering Subjects (EE). Therefore, there were more mobile phones and/or tampered calculators cum cellular phone that were still at large during the examinations. It is quite unfortunate that it will require a court order to force the Telco services provider to
28
reveal the owners of the numbers of these four cellular phones. The Professional Regulation Commission (PRC) is conducting its investigation, and the Board of Electrical Engineering is coordinating with all concerned agencies to prevent the recurrence of similar
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1st QUARTER 2011
incidents of cheating in licensure examinations for REEs. Summons have been served to the five (5) examinees who were caught in possession of the confiscated cellular phones for violating the “General Instructions to Examinees”. If after due process these violators cannot prove their innocence, the Board has the power to perpetually bar them from taking future REE licensure examinations. Moreover, the results of examinations of those violators who took the licensure examination for Registered Master Electrician (RME) will be voided and the RME license of those who already possess it will be revoked. Honesty should not be a lost virtue. Whereas excellence may be measured by the achievements one makes, the manner of achieving them makes or breaks its worth. Honor should come before excellence, for at the end of the day, integrity still remains the measure of the value of an individual.
Technical Feature
TROUBLESHOOTING OF ELECTRIC MOTORS Electric Motor Technical Description
A Technical Paper from the Electric Power Research Institute (EPRI) Energy conversion is accomplished through the use of various types of rotating machinery. Energy is typically converted from one form to another such as mechanical to electrical and vice versa. Most machinery used in converting electrical to mechanical energy has a similar construction. These machines have a magnetic circuit that is used to concentrate the magnetic flux, windings used to carry electrical current, and a support structure that is typically made up of metallic material. Electric motors are used to convert electric energy into mechanical energy.
The stator frame houses the stator core that is composed of stacked, insulated, laminated steel punchings, with slots that allow for winding placement. The stator frame also provides support for brackets and rings that help stabilize the winding endturns. The endbells contain the bearings, which allow for correct positioning of the rotor with respect to the stator and support the rotor. Correct positioning of the rotor will maintain sufficient, uniform air gap between the stator and rotor. The endbells of large motors may contain air baffles, which aid in the ventilation of the core, windings and bearings.
2.1 Motor Components There are three essential components that make the operation of an electric motor possible. The windings, which receive current from an electrical supply system, the active iron (stator and rotor cores) that provides a path for magnetic flux, and the enclosure (stator housing) with other structural support elements, make up an electric motor. The stator housing protects and supports the stator core and windings. The support structure for most electric motors consists of two endbells (bearing housings) and a stator frame. The stator frame and endbells are often made of cast iron, fabricated steel or in some instances cast aluminum. With horizontal motors, the stator housing with mounting feet usually doubles as the mounting system for the motor. Vertical motors are usually anchored or supported by a lower mounting flange. Rotor shafts are usually carbon or special steel alloy.
The stator windings receive the applied voltage and are so arranged as to produce a rotating magnetic field within the confines of the stator. These windings are made of magnet wire, which is formed to make coils. The magnet wire is coated with an insulating material, which provides turn-to-turn, and phase separation between each wire or wire coils. The coils are further insulated by layers of insulating material to provide electric isolation from the stator core. The coil ends are brought out, connected and insulated to form the required series or parallel circuits. Both stator and rotor cores are made of low loss insulated laminations that are stacked, aligned and clamped. Thin laminations are used to reduce hysteresis and eddy current losses, which in turn minimizes core heating from potential stray currents. The rotor core is inside the stator core and the two are separated by an air gap. Magnetic flux passes across
the air gap to complete the magnetic circuit. The magnetic flux induces a voltage in the rotor conductors and produces torque, causing the rotor to rotate. Various types of electric motors will be briefly described in the following sections. 2.1.1 AC Motors - NEMA Type, Squirrel Cage Induction Motors, Up to 200 Horsepower, 600 Volts and Lower Design features include: • Stator – Winding: Three-phase winding consisting of various insulating materials. Conductors are made from insulated magnet wire. – Core: Stacked laminations, insulated with iron oxide, enamel, aluminum phosphate, or other insulating material. • Rotor – Winding: Die-cast or fabricated – Shorting Rings: Die-cast or fabricated – Core: Similar to stator core material – Shaft: Carbon steel or special steel alloy • Bearings: Antifriction (ball or roller) or, occasionally, sleeve bearings. • Frame: Cast iron, die-cast aluminum or sheet steel • Fan: Molded plastic, sheet metal or cast metal alloy Figure 2-1 shows an exploded view of a NEMA type squirrel cage induction motor with randomwound stator, die cast aluminum rotor and antifriction bearings. This is a totally-enclosed, fancooled motor. The external fan and fan cover are shown.
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Technical Feature protection for certain components such as bearings and windings. These enclosures also direct airflow for proper motor components cooling. Figure 2-2 illustrates the flow of air through the motor frame to provide cooling. Figure 2-3 Rotor of an AC Wound Rotor Induction Motor 2.1.4 AC Motors - Synchronous Type
Figure 2-1 Exploded View of AC Motor 2.1.2 AC Motors – Above 200 Horsepower, 4000 Volts and Higher Design features include: • Stator – Winding: Three-phase winding consisting of insulated formed coils Several resin treatments exist for these systems (vacuum-pressure impregnation, resin-rich, etc.). – Core: Electrical grade steel sheets (punchings), laminated, insulated • Rotor – Winding: Rotor bars of fabricated conductors made of copper, alloy, or aluminum – Core: Same as stator core. – Shaft: Carbon steel or special steel alloy • Bearings: In some cases, antifriction bearings are used in motors up to 2,000 hp. Ring lubricated sleeve bearings are used for most horizontal motors. Vertical motors also have thrust bearings that maybe ball, spherical, plate or leveling shoe type. – Oil-lubricated bearings may have cooling coils in the oil reservoir. Water is circulated through cooling coils to reduce oil temperature. • Frame: Usually fabricated from carbonsteel plates or cast iron. Frames and/or enclosures are important to the proper functioning of electric motors. Frames and enclosures provide
30
Figure 2-2 Several Illustrations of Airflow Through Various Motors These figures courtesy of Electric Apparatus Service Association, St. Louis, MO
2.1.3 Wound-Rotor Induction Motors Stator winding, stator core, rotor core, shaft, and bearings are similar to squirrel cage induction motor components. Other design features include: • Rotor Winding: Insulated conductors forming a 3-phase winding • Slip Rings: Steel, brass or bronze rings connected to a 3-phase winding • Carbon Brushes and Brush Rigging: Carbon brushes fitted with flexible copper wire cables called pigtails are mounted in brush holders with springs and some have tension adjusting devices. Carbon brushes ride on slip ring surfaces to conduct rotor current to the controller. Figure 2-3 shows a rotor of a NEMA size wound rotor induction motor. Notice the slip rings used to control rotor current.
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1st QUARTER 2011
Stator components are the same as for AC induction motors 1,000 hp and above. Other design features include: • Rotor – Winding: The synchronous motor has an insulated rotor winding consisting of copper conductors in a concentrated salient pole field coil. It also has a damper winding that is used for starting the motor. – Core: The synchronous motor usually has salient poles that are attached to a central rim by bolts or dovetail connections. – Shaft: Carbon steel or special steel alloy – Slip Rings: Steel or bronze slip rings are mounted and insulated from the rotor shaft, with electrical connections to the insulated field windings. • Rotating, Brushless Exciter: Instead of slip rings, the motor may have mounted on its shaft, a rotating alternator with rectifier diodes to supply the insulated field winding with field current. • Carbon Brushes: Where slip rings are furnished, carbon brushes, and brush holders are used to supply the insulated field winding with field current. • Bearings: Bearings for high horsepower, low rpm, vertical type motors are oillubricated, usually of the sleeve type for guide bearings and disc or pad type for thrust bearings. • Frame: Usually fabricated from carbon steel plate. Figure 2-4 shows a horizontal synchronous motor with solid steel pole pieces, bolted-on pole caps, ring-lubricated
Technical Feature sleeve bearings, brushless exciter and totally-enclosed, water-cooled (TEWC) construction.
• Shaft: Carbon steel or special alloy steel • Bearings: Antifriction or sleeve bearings Figure 2-5 shows an exploded view of a dc motor of less than 100 hp rating. This is an open, drip-proof motor with internal cooling fan and antifriction bearings. The rotating armature has a commutator. The field poles are in the stationary stator frame.
2.3 Typical Motor Failures Table 2-2 presents the results of two industry studies that were conducted to determine which component was the primary contributor to motor failures. From the results, it can be seen that mechanical failures are the most significant contributor. Table 2-2 Percent of Failures by Major Components Percent of Failure by Major Components
Significant Causes of Motor Failures (Study 1) Cause of Failure
Figure 2-4 Cutaway of a Synchronous Motor – TEWC Construction 2.1.5 DC Motors DC motors in power plants are usually rated below 100 horsepower. Design features include: • Stator (Field) – Winding: Windings on the stationary part of the motor are referred to as field windings. They are made of magnet wire and are insulated from the field poles. – Core and Poles: Can be either solid steel or laminated steel. • Rotor (Armature) – Winding: Windings on the rotating portion of the motor are referred to as armature windings. They are made of insulated magnet wire. – Core: Stacked laminations, insulated with iron oxide, enamel aluminum phosphate or other insulating material. – Shaft: Carbon steel or special steel alloy • Commutator: Insulated wedge shaped copper conducting elements formed into a cylinder. Copper segments are insulated from the shaft and from each other, and are connected to armature conductors. • Carbon Brushes and Brush Rigging: Carbon brushes supported by brush rigging transfer current to the rotating commutator.
Figure 2-5 Exploded View of a DC Motor 2.2 Summary Description Table 2-1 provides comparison between basic motor types by principle components. This table will allow the user to make a quick review of typical components to ensure that the proper components are being attributed to the proper motor type.
% of Total Failures by Component % Bearings
% Windings
Overheating
12
21
Insulation Breakdown
2
37
Mechanical Breakage
50
10
Electrical Fault
4
11
Additional searches of industry data suggested a much higher percentage of mechanical failures (60%), while electrical failures were much lower (30%) with a small number of unknowns (10%). The picture presented by the data suggest that bearings and stator windings are the most likely contributor to motor failures.
EPRI Licensed Material Electric Motor Technical Description Table 2-1 Predominant Motor Components Summary Oil Greas Horizontal Vertical Salient Salient Die Cast Fabricated Motor(a) 3Φ 3Φ Random Form Random Form Sleeve Antifriction Stator Rotor Wound Wound Wound Wound Bearing Barings Lubricated Lubricated Mounted Mounted Pole Pole Rotor Rotor type Stator Stator Rotor Rotor Stator Rotor Bars Bars SCIM Up to 200 hp
x
Above 200 hp
x
x x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
WRIM Below 200 hp
x x x x x x x x
SYNCH Above 200 hp
x x x x x x x x x
DC Below 200 hp (a)
SCIM WRIM SYNCH DC
= = = =
x
x
x
x
x
x
x
x
x
Squirrel cage induction motor Wound rotor induction motor Synchronous motor Direct current motor
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Technical Feature
There are contributors or causes for the failure of these two vital components of an electric motor. Review of information from Study 1 allowed classification of failures into some key categories. These are presented in Table 2-3. Table 2-3 Significant Failure Causes
visual inspection. This information was also distilled from Study 1 data. The information is provided in Table 2-4. Table 2-4 Observable Conditions
The Electric Power Research Institute, Inc. (EPRI) conducts
Observable Conditions
Percent of Failure by Major Components Major Component
% Failure (Study 1)
% Failure (Study 2)
Persistent Overloading
% Bearing 1
Bearing Related
44
41
Stator Related
26
36
High Ambient Temperature
1
8
Abnormal Moisture
3
19
Rotor Related
8
9
Other
22
14
Study 1: IEEE,
Study 2: EPRI
There was a further attempt to categorize the failure causes into what has been called “observable conditions�. These are things that should be detectable during a routine observation or a detailed
32
% Windings 7
High Vibration
22
9
Poor Lubrication
31
5
Poor Ventilation or Cooling
-
8
Normal Age Deterioration
20
19
Understanding motor components and their potential for failure will be useful in the evaluation of a motor problem.
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1st QUARTER 2011
ABOUT EPRI research and development relating to the generation, delivery and use of electricity for the benefit of the public. An independent, nonprofit organization, EPRI brings together its scientists and engineers as well as experts from academia and industry to help address challenges in electricity, including reliability, efficiency, health, safety and the environment.
Technical Feature Reducing Inrush Current through an Hospital Equipment Prevented Frequent Failures Dean. A. S. Sempio
Corporate Business Group – Technical Services MERALCO, Philippines Email: cbg.techsupport@meralco.com.ph Introduction
Power quality engineers were consulted by the hospital administrators to seek for solution on their problem.
Computers and electronics are found almost anywhere today. They dominate the controls of your television set, manufacturing equipment and even in the specialized field of diagnostic medicine. Computers provide flexibility and ease of operation to medical diagnostic equipment; this in turn, has pushed the capabilities of these machines to levels unheard of before. Computers in diagnostic machines can provide detailed images of the brain without having the patient risk an operation or make doctors see how a certain drug will affect a patient. The advances in the field of electronics and computers makes one forget that some things that haven’t changed much since the last half century. One of those things is power supply. Diagnostic equipment is invaluable to medical practitioners as they rely on them to provide information that will provide insights on the condition of patients. Hospital Equipment The hospital’s diagnostic equipment are among the most expensive but very valuable tools available today. It is not surprising that advances in medical equipment aided medical practitioners to accurately diagnose ailments and literally save lives. Hospital administrators are understandably concerned about the reliability of their equipment and in turn, concerned about the quality of power of their electrical system. In this study, a hospital’s medical equipment has been experiencing frequent failures despite the presence of a UPS regulating the equipment’s power supply. The equipment vendor has given up on the frequent failures and has finally blamed the power company on the cause of the problem. The hospital is not willing to write off the equipment, as they are relatively new and expensive.
Power Quality Study The Power Quality engineers interviewed the actual users of the hospital equipment and gained some insights on the history of the equipment. It seems that despite being brand new, the diagnostic equipment never functioned for more than 6 months without experiencing failure. The installation of a UPS to regulate the supply voltage and a Transient Voltage Surge Suppressor (TVSS) did not mitigate or even reduced the frequency of the failures. The Power Quality engineers installed a Power Quality Analyzer at the point between one of the diagnostic equipment and its power supply. The data collected are shown below.
Parameter
Minimum
RMS Voltage
95.53%
Voltage Unbalance Voltage Harmonic Distortion
0.95% 0.94%
Average Vab - 100.47% Vbc - 101.02% Vca - 102.67% 1.44% Vab - 2.26% Vbc - 2.08% Vca - 2.53%
Maximum 106.87% 1.97% 4.54%
The table shows the voltage variation based on the utilization voltage of the hospital equipment as well as the values for the voltage unbalance and voltage harmonics of the power supply. The data clearly shows that the quality of the voltage supply is within the operating parameters of the diagnostic or any other electronic equipment of the plus or minus 10% of the rated voltage and should not cause any problems for the equipment. However, one most probable cause of the equipment’s problem was recorded and is seen at the graph below:
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Technical Feature
The equipment draws current up to 150 amperes; the normal operating current of the equipment is only 40 amperes. The data prompted another round of interviews with the hospital personnel. The interviews confirmed the findings of the Power Quality engineers – the most common part of the hospital equipment that failed was the power supply fuse. The next component most likely to fail was the equipment’s power supply board, particularly the board’s inverters. The data shows that inrush current during the equipment’s operation reaches levels that is almost 3 times the equipment’s normal operating current. The equipment’s line conditioning devices – UPS and TVSS – are not capable of mitigating the effects of inrush current.
A reactor is simply a coiled wire that allows a magnetic field to form around the coil when current flows through it. It resists sudden changes in current, the way a capacitor resists sudden changes in voltage. A line reactor is simply a reactor placed in the supply side of the equipment. Any sudden change in current flow will be by the reactor. This is the inherent characteristics of an inductor. It was recommended that a line reactor be placed between the UPS and the equipment; the UPS will compensate for the voltage drop caused by the reactor installation.
34
The inrush current was reduced from a high of 150 amperes to less than 65 amperes. This means that there is less current passing through the equipment, reducing the damaging events to it. If further proof is needed, the equipment was able to function for more than 3 years without experiencing failure. The hospital was able to fully utilize their diagnostic equipment as well as reduce their maintenance costs. CONCLUSION
Solution Inrush current is a normal phenomena observed during the starting of induction motors. Electronic devices exhibit similar characteristics; when the power supply inverters conduct electricity, the inverters are virtually short circuited and cause a large amount of current to pass through them. This is the inrush current that eventually damages the components over time.
another week of power quality monitoring was done. The results are striking:
To ensure compatibility, the equipment manufacturer was contacted and no objections were raised to the installation of a reactor between the equipment and the power supply. After installation,
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Electronics and motors both experience current inrush during their start-up. However, the solution for both cases is different – reduced voltage starters for motors and line reactors for electronics. Power quality data and correct analysis are needed to find the right solution to any power quality problem; without the proper combination, foreseen solutions may not address the power quality issues involved.
Technical Feature A Closer Look at Power Factor Adjustment Does NGCP Really Need To Get Rid of It? Roque F. Corpuz & Gerald R. Pagobo, MSEE National Grid Corporation of the Philippines
This study investigates Power Factor Adjustment as implemented by NGCP. It looks into the details of its formulation and concludes if it is profitable for NGCP to remove or carry on power factor adjustment. 1 Introduction What is power factor? In a power system, two types of power are actually transmitted. The first is the real power measured in MW and the second is the reactive power measured in MVAR. Ordinary loads such as heaters and incandescent bulbs consume real power (MW). Motors and transformers require reactive power (MVAR) in addition to MW. The vector sum of MW and MVAR is called apparent power measured in MVA. The relationship between the three power values is shown below: A MV
MVAR
θ
MW
With more motor loads connected to the system, more reactive power (MVAR) is needed. The net effect is an increase in angle θ and consequently, the MVA is increased. The figure below shows increasing angle θ as MVAR is increased. Note that as θ increases, cos θ or the power factor decreases. Low power factor degrades the quality of transmission line performance.
VA
M
A MV
MVAR
MVAR θ2
θ1 MW
MW
power factor =
MW MVA
power factor = cos θ
So power factor is the cosine of the angle between the apparent power and the real power.
Since Power Factor Adjustment is intended to compensate for the extra current passing through the transmission lines, its quantity should be proportional to IMVA. From the equation above. power factor = pf = cos θ =
2 Rationale, why does NGCP charge Power Factor Adjustment? With reference to Figure 2, each power value in the power triangle corresponds to a value of current. Thus a “current triangle” could be drawn. Figure 3 shows the current corresponding to each type of power. I MVA
MVA x power factor = MW
3 The Origin of Power Factor Adjustment Formula
Figure 2. For the same MW, as MVAR is increased, θ increases. The power factor or cos θ decreases
Figure 1. The power triangle
Power factor is the “factor” that is multiplied to the apparent power (MVA) to get the real power (MW). In mathematical terms:
current. Note from Figure 3 that the actual current that passed through the line was IMVA which is greater than IMW . Thus to compensate for the extra current due to MVAR which passed though the transmission lines, Power Factor Adjustment is collected.
θ1
IMVAR
IMVA =
Why does NGCP charge Power Factor Adjustment? The answer to that question can be found in Figure 3. Recall that NGCP’s power bill to its customers is based on MW or demand. Thus it is charging its customers payment for wheeling energy corresponding to IMW of
(1)
IMW cos θ
(2)
It can be seen from equation (2) that “real current” IMW is increased to 1MW cos θ when power factor (or cos θ ) is considered. The quantity of current IMVA ,PFA which should be the basis of the Power Factor Adjustment is the actual current IMVA less IMW (since IMW was increased to IMW ) cos θ
IMW
Figure 3. Currents corresponding to each type of power
I MW = MW MVA IMVA
IMVA, PFA = IMVA - IMV
subtituting
IMVA =
(3)
IMW cos θ
IMVA, PFA =
IMW - IMW cos θ
IMVA, PFA = IMW
(4)
I - 1) (5) ( cos θ MW
Thus the Power Factor Adjustment Charge should be based on the Total Demand Related Charge (TDRC) which is the amount charged for
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Technical Feature Mi
=Peak Demand within a Billing Period for a Load Customer’s particular Point of delivery.
ΣMi
= Peak Demand within a Billing Period for all Points of Delivery of a Load Customer
cos θ
(1/cosθ)-1
increases from 0 to 1, the “factor” abruptly decreases as shown in the Figure below. 20.00 18.00 16.00 14.00 12.00 10.00 8.00 6.00 4.00 2.00 0.00
Observe that since pf - cos θ TDRC x
Power Factor 1 Figure 4. Plot (cos -1) θ
Section F(AVIII)1.4 of the OATS Rules1 calculates Power Factor Adjustment as: PFA=TDRC x
)
- 1 = TDRC x
(
SPF pf
) ( )
-1 x
Mi ΣMi
(6)
Total Demand-Related Charge which is the sum of Power Delivery Service Charge, System Operator Charge, Load Following and Frequency Regulation Charge, Black Start Service Charge and Intra-Regional Grid Cross Subsidy (kW) for the Load Customer for the Billing Period
(
(
1 SPFcos θ-
SPF cos θ
)
1
)
20.00 15.00
(1/cosθ)-1 Should be charged to PFA (.85/cosθ)-1 What is actually charged to customers due to introduction of SPF
0.05 0.10 0.15 0.20 0.25 0.30 0.35 0.40 0.45 0.50 0.55 0.60 0.65 0.70 0.75 0.80 0.85 0.90 0.95 1.00
%
= Standard Power 5.00 Factor. 85% if actual 0.00 PF below 85%. Not -5.00 Applicable (if pf is Power Factor between 85%-91%). 90% - if actual PF is Figure 5 Effect of introducing adjustment equation above 90%
PF
= Power Factor (actual)
The OATS rule is the basis of billing as per Transmission Service Agreement (TSA) signed by TransCo and its customers
1
36
into the
Also notice that the deviation of the modified adjustment equation is most evident on lower power factors from 50% and below. This however should not be of concern since for most practical application; power
THE ELECTRICAL ENGINEER
1st QUARTER 2011
Some municipal utilities such as Tacoma Public Utilities4 and Coon Rapids Electric Utilities5 and even the local Meralco use the simple equation: 1 + (pf - SPF) x Adjustment x kWDemand
(7)
1
With reference to the previous section, the OATS Rules is consistent with charging the extra demand represented by the current IMVA, since it considered the factor PFA ( cos1 θ - 1 ). The introduction of SPF in the numerator ensures that the customer is not penalized for having a power factor equivalent to SPF2. The inclusion of SPF in ( 1cos θ - 1 ) however, would result in collecting penalty charges which is lower than the required theoretical charge given by (cos1 θ - 1 ). For all practical purposes however the collected penalty charge with SPF as a factor is acceptable as shown in the graph below. Notice that at power factor 70%-90% 3, the curves are almost equal.
10.00
SPF
SPF pf
= TDRC x 0.05 0.15 0.25 0.35 0.45 0.55 0.65 0.75 0.85 0.95
Where TDRC =
(
factor would not reach as low as this. In general, the equation is a good approximation for adjusting the demand to compensate for extra MVAR.
Adjustment = 3% for bonus (that is pf > SPF) and 6% for penalty. Note that Tacoma and Coon does not award bonus and that their SPF is quite high at 90% and 95% respectively as opposed to Meralco where SPF = 0.85. At higher power factor, which is the usual case in the operation of power system, (pf - SPF) approximates as shown in Figure 6 below.
% TDRC
wheeling energy corresponding to IMW current multiplied by a factor of ( 1 - 1 ). As the power factor
0.160 0.140 0.120 0.100 0.080
0.85-PF (0.85/cosθ) - 1
0.060 0.040 0.020 0.000
40 .750 .760 .770 .780 .790 .800 .810 .820 .830 .840 .850 0 0 0 0 0 0 0 0 0 0 0
0.7
Power Factor
4 Legal basis of Power Factor Adjustment Except for the OATS Rules 6 setting the required load power factor of customers to 85%, there are no other references or any other legal basis of Power Factor Adjustment both bonus and penalty. Even the Transmission Development Plan 2007 acknowledges this when it stated: If pf of customer = SPF, = (1-1) = 0 therefore customer is not charged Typical power factor of induction motors. See http://www mytpu. org/ file_viewer.aspx?id=738 4 http://www.wyan.org/assets/electric/PowerFactor.pdf 5 http://crmu.net/PDF%20files/Rates/Electric/Power%20Factor%20 Adjustment%20Rate%20Schedule.pdf 6 Customers are bound to comply with the OATS Rules since it was stipulated in the contracts that they signed (TSA or Transmission ServiceAgreement) 2
3
Technical Feature “However, the Grid Code is not strict on power factor and there is no mechanism, except through the revised OATS Rules, on enforcing high power factor to customers”
5 Recommendations Since NGCP billing is demand based, there is a need to impose the Power Factor Adjustment (penalty) to compensate for the extra current due to MVAR. This MVAR current equally degrades our lines as the MW current. It is sensible to consider removal of bonus for high power factors since the OATS Rules had already required the customers to maintain a minimum of 0.85 power factor. This means that along with the OATS Rules’ requirement for the customers, it requires NGCP to maintain its line
capacity at customers’ power factor of 0.85. If investment on additional capacity would be more economical than the cost of the power factor bonus rewarded, then at some point we can consider keeping the power factor bonus. In general however, as with other utilities, NGCP lines are designed and built to be capable of handling currents at customer standard power factor of 0.85, hence, power factor bonus should be removed and NGCP should get rid of it. Lastly, considerations should be made to increase the 0.85 power factor required by the OATS Rules in view of the practices of utilities in other parts of the world which sets their standard power factor higher than 0.90.
ABOUT THE AUTHORS Engr. Rex Corpuz is a former
Sr. VP of the National Transmission Corporation and a former President of National Grid Corporation of the Philippines (NGCP). He is presently the Sr. Technical Adviser at the Office of the President, NGCP. He is also a former Regional Governor of IIEE Region 1.
Engr. Gerald R. Pagobo is
an Electrical Engineer with an MSEE degree and presently assigned at the Transmission Planning of the Planning and Engineering Department of the National Grid Corporation of the Philippines (NGCP).
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By: Alex C. Cabugao 11.Freedom from difficulty 12.Tall grasses growing marshy places 13.Insane in Madrid 20. Virus trojan game extension 21. Sheds 25. Actor Flynn 27. Archaic pronoun 28. Works hard 30. Northern Italy town 31. Celestial body 32. Labor’s Ople 33. Latergear’s hydraulic winches model 34. Maximum impedance for parallel circuit 35. Entangled 37. Difference from synchronous speed 40. Apple juice beverage 44. Tarlac town 46. Present but not visible 48. Social gathering 50. Gemstones’ unit of weight DOWN 52. Ointment 1.Electric machine 53. Protein building acid 2.Article of food 54. Setbacks 3.An electrode 55. Ages 4.Special ellipse 56. Forty Thieves’ Ali 5.US army software engineering 57. Impede group 59. Nothing 6.Small quantity 60.Vishnus’s goddess consort 7.Mix 62. Charged atom 8.Garfield’s girlfriend 9.New Guinea seaport city 10.Temporary component of power
38. Relax 39. Gladly 40. Transformer windings 41. Japan’s pottery village 42. In addition 43. Give back in Iloilo 44. Change 45. Preterit of shall 47. Distance between poles 49. An echo canceller 51. Superficial appearance 56. Acctg. course 58. Substation equipment 61. 1992 musical film 63. River of France and Italy 64. Exclamation of sudden pain 65. Salted and smoked pork 66. Against 67. Highly organized insects 68. Means 69. Rip 70. Semiconductor substrate
ACROSS 1.Capacity unit 4. Baby’s bed 8. Modify 13. Between ribs and hipbone 14. Hero 15. _____ aves 16. Texas reclamation office 17. Ceremony
18. Rent 19. Ability of a conductor 22. Australia’s famous bushranger 23. Trying experience 24. Denmark’s inhabitants 26. Cobblestone 29. Not parallel 32. Sodium borate 36. Emcee
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