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WATER SPECIFIER KIT

WE HAVE

PURE

WATER SOLUTIONS FOR ALL TYPES

OF INDUSTRIES

RURAL

B O R E WAT E R D A I RY FA R M I N G I R R I G AT I O N

MINING

UNDERGROUND PLANT PREP O P E N C U T P O N T O O N S WA S H PA D S D U S T S U P P R E S S I O N WA S H D O W N S

DE IONISATION

R E N TA L S

C O M B I N E D

S Y S T E M S

INDUSTRIAL &

MANUFACTURING

DESALINATION

CAR

WASH

WASTE

WATER

M A N A G E M E N T C O M M E R C I A L – O F F I C E , E D U C AT I O N H O S P I TA L S A N D L O N G T E R M C A R E A PA R T M E N T S N E W

H O M E

D E V E L O P M E N T S

H O S P I T A L I T Y

FOOD & BEVERAGE ALCOHOLIC & NON ALCOHOLIC BEVERAGES FOOD

LABORATORY

& HEALTH D I A LY S I S

L A B O R AT O R I E S

SERVICE

REVERSE OSMOSIS S

Y

S

T

E

M

S

www.continentalwater.com.au

1300 166 253

Incorporating IBC Water


CONTENTS

CORPORATE PROFILE 04 OUR INDUSTRY 06 FILTRATION SYSTEMS 08

CASE STUDY – SIBELCO FILTERS ELECTRIC, KINETICO NON-ELECTRIC TANK MEDIA ELECTRIC SYSTEMS CARBON FILTERS CALCITE FILTERS MULTI MEDIA MANGANESE GREENSAND FILTERS NEXTSAND FILTERS BAG FILTERS DMI-65 FILTERS KINETICO NON-ELECTRIC SYSTEMS KINETICO NON-ELECTRIC FILTERS

10 13 14 16 17 18 19 20 21 22 23 24 25

WATER SOFTENERS 26

WATER SOFTENER APPLICATIONS ELECTRIC WATER SOFTENER KINETICO MACH SERIES KINETICO NON-ELECTRIC CC SERIES KINETICO NON-ELECTRIC COMMERCIAL PLUS HYDRUS SOFTENING SYSTEMS

28 30 31 32 33 34

MEMBRANE SYSTEMS 36

CASE STUDY – TRENDPAC MEMBRANE ELEMENTS ULTRAFILTRATION REVERSE OSMOSIS RO – EDI SYSTEM KINETICO TL SERIES DESALINATION SEA WATER DOLPHIN DESALINATORS – BASIC, YACHTY

38 40 42 44 46 47 49 51 52

DEIONISATION 54

CASE STUDY – SYDNEY WATER 56 DEIONISATION APPLICATIONS 58 FAQ 59 RENTAL EXCHANGE 60 DEIONISATION SPECIFICATIONS 61

RECLAIM SYSTEMS 62

RECLAIM SYSTEMS APPICATIONS RAINWATER HARVESTING SYSTEM WASTEWATER REUSE SYSTEM

64 65 66

OZONE 68

CASE STUDY – EASTCOAST WATER AND AIR APPLICATIONS AIR OZONE SYSTEMS WATER OZONE SYSTEMS

70 72 73 77

ULTRAVIOLET 82

ULTRA FILTRATION/ULTRAVIOLET APPLICATIONS FILTRATION/ULTRAVIOLET DISINFECTION FILTRATION/CHLORINATION PLANT

85 86 87

WATER POLISHERS 88

CASE STUDY – ROYAL BRISBANE HOSPITAL WATER POLISHER APPLICATIONS LABOSTAR ULTRAPURE WATER SYSTEMS PURE PURITY–ULTRA CLEAR APPLICATIONS ULTRA CLEAR SYSTEMS

90 92 93 96 97


WELCOME CONTINENTAL WATER SYSTEMS INCORPORATING IBC WATER HAVE BEEN MANUFACTURING, BUILDING AND SERVICING WATER FILTRATION SYSTEMS FOR OVER 100 YEARS. We were the first water filtration business to introduce Service Deionisation systems to the Australian market back in 1987 and continue to be a market leader in the installation and service of Deionisation Systems. We are a knowledgeable provider of a wide range of water purification technologies for any type of water filtration application. From membrane systems and desalination plants to ultra-pure water systems we have a solution for your business. In 2011, we added another facet to our business with the purchase of IBC Water in Queensland. IBC Water has a heritage which began in 1888 when they introduced bore water systems to the rural Queensland community. Today they are a recognised and respected water filtration provider in Queensland. The combined heritage of IBC Water and Continental Water Systems gives us a history spanning 133 years. We have been at the forefront of the Australian water industry since 1888 and continue to be leaders in the field today. Our solid knowledge and credentials have helped us forge relationships with some key global water businesses including Kinetico and Siemens to deliver world class water filtration systems. Our biggest asset is our team. Our sales team have a wealth of knowledge and can design and build a system to meet you requirements. Our team build your system and it is then installed and serviced by our service team to ensure your system runs efficiently and hassle free. We provide same day emergency service in metropolitan areas and 24 hour turn around on non urgent jobs. We are not providers, we are PARTNERS who are passionate about working closely with our customers to create a water solution that not only meets your business needs today, but can grow with your business. Talk to us on 1300 166 253 and welcome to the Continental Water family. Best regards,

John Winstanley Managing Director

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CONTINENTAL WATER SYSTEMS,

INCORPORATING IBC WATER – SUPPLYING AUSTRALIA WITH WATER SOLUTIONS SINCE 1888 In the 21st Century, effective water management continues to be of paramount importance in Australia to meet population growth needs, changing weather cycles and conditions as well as evolving manufacturing needs; from mining and food production through to technological and medical research. Innovations in water recycling, harvesting and filtration have been significant over the last 150 years in Australia and around the globe. Clean, safe water supply means a healthy community and efficient manufacturing.

Since 1888 Continental Water, incorporating IBC Water, have been at the forefront of delivering pure water solutions and service to; • Rural and farming communities • Mining communities • Food and beverage manufacturers • Hospitality • Engineering and cutting edge technology developers • Marine and boating communities • Laboratories and medical research facilities

OUR SERVICE TEAM We provide same day emergency service in all metropolitan areas along the Eastern Seaboard. The final component of our customer partnership process is our service team. From an invoicing enquiry to booking a service we aim to be reliable, fast and friendly.

WORKING WITH OUR PARTNERS We have a broad range of solutions. We take the time to REALLY understand you and your business needs. Each of our water filtration solutions delivers the following benefits to your business. • A superior system built in Australia to meet Australian conditions and compliance standards • Project design from P&ID, site layout and 3D drawings • Support technical reports, installations, commissioning and operator training • A range of products with a proven track record so less down time for repairs • Cost effective solutions aligned with your budget • Rental Service Deionisation systems to save you money on set up costs • Fast design and build times so you can get on with running your business • Modular integration • Simple to operate meaning fast start up and operation • Factory tested so there are no on site delays • The ability to upgrade as your business grows • Ongoing service, technical support and parts availability

We have a service plant and team based in NSW, Victoria and Queensland who offer same day service in an emergency as well as regular servicing to extend the life and performance of your system. We service the following systems: • Deionisation Systems • Multimedia filtration • Reverse Osmosis and other membrane separation systems • Water softening and ion exchange plants • Chemical dosing pumps and monitoring control systems • Ultraviolet and ozone disinfection systems • Filter housings and consumables • Desalination systems • Water and waste water treatment plants. The service team can also provide onsite support and training to any area throughout Australia and the Asia Pacific region. But most importantly, we are on hand to support your system so you can get on with running your business.

We aim to make dealing with us easy and provide you with a high quality end product that is easy to use, reliable and enhances your business. 5


OUR PRODUCTS – YOUR INDUSTRY

FILTRATION, REVERSE OSMOSIS & MEMBRANE SYSTEMS ALL INDUSTRIES

WATER SOFTENERS

6

ALL INDUSTRIES


DEIONISATION

RECLAIM SYSTEMS

OZONE GENERATORS

UV ULTRAVIOLET

WATER POLISHERS

7


WATER FILTRATI

8


INDUSTRIES

ION WATER FILTRATION IS AN AREA THAT IMPACTS EVERYONE. FROM COMMERCIAL APPLICATIONS TO UNDER SINK SYSTEMS WITHIN THE HOME, THE QUEST FOR PURE WATER HAS BEEN A PRIORITY FOR CENTURIES. In ancient Greek and Sanskrit writings dating back to 2000 BC, water treatment methods were recommended. People were aware that heating water might purify it. They were also educated in sand and gravel filtration, boiling, and straining. The major motive for water purification was better tasting drinking water. After 500 BC, Hippocrates discovered the healing powers of water. He invented the practice of sieving water, and obtained the first bag filter, which was called the ‘Hippocratic sleeve’. The main purpose of the bag was to trap sediments that caused bad tastes or odours. In today’s world the importance of water and its purity is crucial. From the mining sector to the food and beverage industry – effective water filtration is paramount to your business. Our comprehensive range of water filtration applications and our team’s experience and knowledge allow us to deliver quality pure water solutions for your business from installation to service. 9


CASE STUDY

SIBELCO Founded in 1872, Sibelco began operation in the Australian and New Zealand markets in 2000. One of the world’s largest industrial mineral companies Sibelco has a network of over 45 mines, plants, sales offices and warehouses based in Australia. They supply products to Glass, Mining, Agriculture, Construction and Industrial Manufacturing industries. IBC Water has had a long standing partnership with Sibelco’s Silica Sand manufacturing plant on North Stradbroke Island. The plant is a floating Concentrator Vessel which is 60m long by 40m wide designed specifically for sand mining.

The entire system is housed in a 12 sqm plant and is serviced on a regular basis from our Brisbane plant. The service involves salt top up as well as a general maintenance and a water quality check.

The system has exceeded expectations. The team put forward an innovative solution which saves energy, is reliable and is saving Sibelco money as we no longer have to buy water. We also now have the added peace of mind knowing the system is maintained to exacting OH & S water requirements for the general health and wellbeing of the employees working on the Concentrator.

Bob Bell Sibelco, Plant Operations Superintendent

The Concentrator processes 3,000 tons of sand a day to extract the zircon which goes towards manufacturing paints, toothpaste, sunscreen, ceramic tiles, touch phones and digital tablets.

Water quality is maintained in the 3,000 litre holding tank through an electric UV system. Again this system is serviced and maintained by our Brisbane Service Technicians.

Originally IBC Water installed an activated carbon and sand filter system to treat bore water as it was pumped from the pond to the Concentrator for general consumption and washing purposes.

The system now means the staff shifts can confidently drink and bathe in the water overcoming the need to transport water to the pontoon and is in operation 24 hours a day, seven days a week.

However, over time various factors such as pond water chloroforms, general wear and tear and age saw a deterioration in the end water product. This lead to Sibelco having to purchase and transport water onto the island at sizeable costs.

Bob Bell highlighted that “The system has exceeded my expectations. The team put forward an innovative solution which saves energy, is reliable and is saving Sibelco money as we no longer have to buy water.

In late 2012, Sibelco again approached IBC Water to discuss how to best upgrade their water system. Bob Bell, the plants Operations Superintendent, brief was to design and install a system to meet OH & S regulations and the needs of the Concentrator’s crews without environmental impacts to North Stradbroke Island. Now under the ownership of Continental Water, the team designed, built and now service a comprehensive

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combined water system which serves various functions such as drinking and requirements to manufacturing processes. The system encompasses Kinetico NonElectric Filters which includes a pH neutraliser, a water softener and multimedia filters to manage the 15,000 litres a day usage requirements. Incoming water pressure drives the Kinetico system meaning the system is only in operation when water is needed; saving on power.

We also now have the added peace of mind knowing the system is maintained to exacting OH & S water requirements for the general health and well being of the employees working on the Concentrator.”

If you want to know more about Sibelco and their services visit www.sibelco.com


1 2

4

3

1. Sibelco Concentrator Vessel 2. Quartz Sand Mine 3. Water Treatment Plant 4. A CWS Service Technician visits the plant

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WHICH FILTER SYSTEM IS BEST FOR YOU?

12


SYSTEMS ELECTRIC OR KINETICO NON-ELECTRIC

WHY AN ELECTRIC SYSTEM? An electric system allows you to set the time and frequency of the back wash and gives you full control of your water filtration system.

WHY USE A KINETICO NONELECTRIC SYSTEM? Continental Water is a close distribution partner with Kinetico – the world pioneer in non-electric filter systems.

This is crucial in numerous industries and applications such as labs and hospital scenarios, laundries and food and beverage manufacturing.

A Kinetico non-electric system has the same qualities and attributes of an electric system but runs on water pressure to drive all functions of the Kinetico valve.

All of our electric valves feature; • Seven day timer for time based backwashes or • Microprocessor for volume based backwash

A Kinetico non-electric system is ideal when a system is not running to a strict regime as it saves both water and power. It can be used in remote areas which don’t have access to power or an application that does not require backwashing at a set time throughout a 24 hour period. The Hydrus Valve is a non-electric 50mm valve, (the standard non-electric valve is 32mm) the first top mount control that regenerates in a counter current format right out of the box. It reduces salt use by more than 30% which delivers additional cost savings and efficiencies. It works in conjunction with a Kinetico non-electric water system.

Both an electric and a Kinetico non-electric system supports the following applications; • Single or multi tank configurations • Water softening • Filtration • Ion exchange • Deionisation systems • Co-current or counter current regenerations

Hydrus Valve features; • Non-corrosive • No motors • Hydraulic operation • No limit-switches • Lead free • No cams The Hydrus Smart Start is the perfect complement to a Hydrus non-electric system. It is a controller that can operate your entire system to a range of specifications and configurations.

13


TANK MEDIA WHICH IS BEST FOR YOUR APPLICATION? One media type does not fit all filtration requirements. We offer a diverse range of media options to suit a broad range of industries from resin Deionisation systems to Kinetico Macrolite media. We can create a customised solution to suit any budget, industry or operation size.

1. KINETICO MACROLITE Macrolite is a ground breaking filtration media which provides the best filtration performance and high filtration rates. The granular, ceramic media offers filtration superior in comparison with more traditional aggregates such as sand and multi media.

1 2

The end result for you? A system that will improve water quality, lower operating costs and reduce waste discharge volumes. Features; • Filters to 5 micron • 100 x surface area to sand • Removes more turbidity • Holds solids longer than traditional medias • More particle removal at very low micron levels • Reduced media weight reduces backwash flow rates • 100 % bed expansion at a flow rate 2/3 or less than other filter types

2. CARBON Carbon filtration is a common method of removing unwanted tastes and odours caused by chlorine, organics, chemicals, herbicides, pesticides and algae. Removal of chlorine is necessary before a reverse osmosis system and water softener treatment as these processes are not tolerant to chlorine. Unlike other forms of media filtration, carbon will also partially remove tannin or organic colours. One litre of carbon has roughly the surface area of a football field, therefore quite extensive runs from the carbon bed can be realised before replacement is required.

3. CALCITE Calcite is a crushed and screened white marble material used to neutralise low pH water to a neutral non-corrosive state. Upon contact with calcite, acidic water slowly dissolves the calcium carbonate media to raise the pH level, which subsequently reduces the potential leaching of copper, lead and other metals typically found in plumbing systems. However, in some circumstances calcite will add hardness to the water supply and a water softener may be required. Calcite filtration is an efficient neutralising filter.

4. MULTI MEDIA Multi Media filtration is used primarily to remove sediment down to a nominal 25 microns by collecting particles and flushing the waste during the backwashing process. The filter has a five-strata bed; the system consists of 5 different filtration media from coarse gravel to fine sand.

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3 4

5 6

7 8 1. Kinetico Macrolite magnified 100x 2. Carbon 3. Calcite 4. Multi-media 5. Greensand 6. Nextsand. 7. DMI-65 8. Bag Filters

5. MANGANESE GREENSAND FILTERS Manganese Greensand is a naturally occurring glauconite mineral of marine origin. The singular nodular grains of glauconite are washed, graded, stabilised and coated with manganese oxide. This media has the ability to attract, absorb or dissolve iron, manganese and moderate levels of hydrogen sulphide in raw water. This type of filtration requires regeneration to occur on a regular basis with potassium permanganate, which oxidises or precipitates the mineral bed of absorbed iron, manganese and hydrogen sulphide. These are then removed during the backwashing or rinsing process. A level below 7pH will strip the media rendering it useless. pH correction by way of soda ash dosing is recommended.


6. NEXTSAND Nextsand filtration is a high-purity form of filtration, filtering down to a credible 3 micron (nominal 5), and provides a higher solid loading, longer running times, superior performance and long bed life in comparison to multi media. The hardness, stability and micro porous character of Nextsand makes it a perfect filtration media for virtually every application in the water and wastewater treatment industry.

7. DMI-65 DMI-65 is an effective media in the removal of iron and manganese from raw water, by acting as an oxidisation channel allowing immediate oxidisation and removal of the insoluble precipitate. It performs well within a wide

pH range of 5.8 up to 8.6, and also achieves efficient filtration under high operating temperatures up to a maximum of 45ËšC.

8. BAG FILTERS Bag filtration offers a solution to traditional forms of filtration whilst maintaining cost effectiveness and versatility for a range of applications. The housing is made from durable and hard-wearing polypropylene or stainless steel with UV resistant properties. The filtration process works by water entering the unit through the inlet manifold and passing into the top section of the bag housing, through the internal filter bag, leaving through the lower outlet manifold. The degree of filtration is determined by the micron rating of the bag installed.

TANK CONFIGURATIONS SIMPLEX (SINGLE)

TRIPLEX (TRIPLE)

This system uses raw water to regenerate or backwash. This configuration is the most economical to purchase and the most space efficient; however, operational costs and waste production is not the lowest. Additionally it does not produce the best water quality. This system has a a flow rate ranging from 8 to 360 LPM.

As with a Duplex system, this configuration uses soft or filtered water to regenerate. This system is ideal for continuous high flow rate applications where water quality and regeneration efficiency is vital, such as chlorine production, batch filling operations, boiler feed and other critical applications. The Triplex design effectively regenerates one tank at a time with only a minimal pressure drop. A Triplex system has a flow rate ranging from 200 LPM to 1,000 LPM.

DUPLEX (DUAL) Uses soft or filtered water to regenerate. This configuration is suited for intermittent higher flow designs needed by laundries, hotels, motels and large food and beverage preparation facilities. Duplex flow rates range from 100 LPM to 700 LPM.

MULTI TANK Again uses soft or filtered water to regenerate or backwash. This configuration delivers high flow rates with almost no backwash detectable pressure drops during regeneration or backwash. The design offers high salt efficiency and the softest water possible. A Multi Tank system has flow rates from 60 LPM to 1500 LPM.

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SPECIFICATIONS SPECIFICATIONS

ELECTRIC SYSTEMS OUR RANGE OF ELECTRIC CONFIGURATIONS ARE BUILT TO YOUR SPECIFIC REQUIREMENTS.

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ELECTRIC SYSTEMS

CARBON FILTERS FEATURES • FRP Vessel • UPVC or ABS pipe work assembly • Optional galvanised skid mounting • High quality control equipment and valves • Option of control head, water actuated, air actuated or electrical actuated valves • Potable grade media • Option of modular integration, e.g. duplex, triplex, duty/standby • Ex factory or onsite loading of media for tight spaces

CARBON FILTER SIZES Size

Width

Height

Inlet/Outlet

Waste

Weight

Product Flow

1

16"

65"

50mm

40mm

111kg

28 LPM

2

21"

62"

50mm

40mm

137kg

45 LPM

3

24"

71"

50mm

40mm

241kg

60 LPM

4

30"

72"

50mm

40mm

409kg

95 LPM

5

36" Magnum

72"

50mm

40mm

705kg

135 LPM

6

42" Aquamatic

72"

80mm

80mm

950kg

183 LPM

7

42" Electrical Actuated

72"

80mm

80mm

1050kg

183 LPM

8

42" Pneumatic Actuated

72"

80mm

80mm

1050kg

183 LPM

9

48" Aquamatic

72"

80mm

80mm

1300kg

239 LPM

10

48" Pneumatic

72"

80mm

80mm

1400kg

239 LPM

11

48" Electrical Actuated

72"

80mm

80mm

1400kg

239 LPM

TECHNICAL SPECIFICATIONS Design: Chlorine, hydrocarbon, colour, taste and odour removal Configuration: Continuous inline filter Pressure Vessel: Fibre Reinforced Plastic (FRP) Media: Granular actived carbon Operating Pressure: 300 – 690 kPa Operating Temperature: 5 – 45°C· pH Range: 5.5 – 9.0 Contact Time: 10 – 20 min

SYSTEM INCLUSIONS • Inlet and outlet pressure gauges & inlet and outlet isolating valves Service flow controller & Backwash flow controller • UPVC or ABS pipe work • Time clock or microprocessor volumetric controller

OPERATING PARAMETERS • A pressure reduction valve should be installed in areas of high water pressure (above 690kPa). • A water hammer arrestor should also be installed if water hammer prevails • Suspended solids: max 50 mg/l • Iron: max 0.5 mg/l • Flow rate will depend on application • Alkalinity should be greater than 2 times sulphate and chloride concentration

Pictures are for illustration purposes only Dimensions and capacities are approximate only

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ELECTRIC SYSTEMS

CALCITE FILTERS FEATURES • FRP Vessel • UPVC or ABS pipe work assembly • Optional galvanised skid mounting • High quality control equipment and valves • Option of control head, water actuated, air actuated or electrical actuated valves • Potable grade media • Option of modular integration, e.g. duplex, triplex, duty/standby • Ex factory or onsite loading of media for tight spaces

CALCITE FILTER SIZES Size

Width

Height

Inlet/Outlet

Waste

Weight

Product Flow

1

16"

65"

50mm

40mm

250kg

30 LPM

2

21"

62"

50mm

40mm

350kg

52 LPM

3

24"

71"

50mm

40mm

470kg

70 LPM

4

30"

72"

50mm

40mm

670kg

109 LPM

5

36" Aquamatic

72"

50mm

40mm

1100kg

156 LPM

6

36" Pneumatic

72"

80mm

80mm

1100kg

156 LPM

7

36" Electrical Actuated

72"

80mm

80mm

1100kg

156 LPM

8

42" Aquamatic

72"

80mm

80mm

1600kg

212 LPM

9

42" Pneumatic

72"

80mm

80mm

1700kg

212 LPM

10

42" Electrical Actuated

72"

80mm

80mm

1700kg

212 LPM

11

48" Aquamatic

72"

80mm

80mm

2100kg

276 LPM

12

48" Pneumatic

72"

80mm

80mm

2200kg

276 LPM

13

48" Electrical Actuated

72"

80mm

80mm

2200kg

276 LPM

TECHNICAL SPECIFICATIONS

OPERATING PARAMETERS

Design: Increasing low pH from 5.5 upward to neutral pH 7 Pressure Vessel: Fibre Reinforced Plastic (FRP) Media: Calcite grade A8021 – 01 Operating Pressure: 300 – 690kpa Operating Temperature: 5 – 45°C pH Range: 5.5 – 7

• A pressure reduction valve should be installed in areas of high water pressure (above 690kPa) • A water hammer arrestor should also be installed if water hammer prevails • Suspended solids: max 50 mg/l • As calcite media will be dissolved in the water, hardness will increase. • Depending on the pH of the water, topping-up the media will be required regularly

SYSTEM INCLUSIONS • Inlet and outlet pressure gauges & inlet and outlet isolating valves • Service flow controller & Backwash flow controller • UPVC or ABS pipe work • Time clock or microprocessor volumetric controller

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ELECTRIC SYSTEMS

MULTI MEDIA FEATURES • FRP Vessel • UPVC or ABS pipe work assembly • Optional galvanised skid mounting • High quality control equipment and valves • Option of control head, water actuated, air actuated or electrical actuated valves • Potable grade media • Option of modular integration, e.g. duplex, triplex, duty/standby • Ex factory or onsite loading of media for tight spaces

MULTI-MEDIA FILTER SIZES Size

Width

Height

Inlet/Outlet

Waste

Weight

Product Flow

1

16"

65"

50mm

40mm

226kg

80 LPM

2

21"

62"

50mm

40mm

320kg

120 LPM

3

24"

71"

50mm

40mm

500kg

180 LPM

4

30"

72"

50mm

40mm

867kg

305 LPM

5

36" Aquamatic

72"

65mm

50mm

1150kg

400 LPM

6

36" Pneumatic

72"

80mm

80mm

1150kg

400 LPM

7

36" Electrical Actuated

72"

80mm

80mm

1150kg

400 LPM

8

42" Aquamatic

72"

80mm

80mm

1400kg

539 LPM

9

42" Pneumatic

72"

80mm

80mm

1400kg

539 LPM

10

42" Electrical Actuated

72"

80mm

80mm

1400kg

539 LPM

11

48" Aquamatic

72"

100mm

80mm

1900kg

704 LPM

12

48" Pneumatic

72"

100mm

80mm

1900kg

704 LPM

13

48" Electrical Actuated

72"

100mm

80mm

1900kg

704 LPM

TECHNICAL SPECIFICATIONS Design: Sediment removal and turbidity reduction Pressure Vessel: Fibre Reinforced Plastic (FRP) Media: Heavy garnet, fine garnet, 7m sand, anthracite Operating Pressure: 300 – 690 kPa Operating Temperature: 5 – 45°C Filtration Rate: 10 – 15 micron pH Range: 5.5 – 9

SYSTEM INCLUSIONS

Multimedia Media Set

• Inlet and outlet pressure gauges, inlet and outlet isolating valves, Service flow controller & Backwash flow controller • UPVC or ABS pipe work • Time clock or microprocessor volumetric controller

OPERATING PARAMETERS • A pressure reduction valve should be installed in areas of high water pressure (above 690kPa). • A water hammer arrestor should also be installed if water hammer prevails • Suspended solids: max 100 mg/l • Not recommended for colloidal sediment removal

Pictures are for illustration purposes only Dimensions and capacities are approximate only

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ELECTRIC SYSTEMS

MANGANESE GREENSAND FILTERS FEATURES • FRP Vessel • UPVC or ABS pipe work assembly • Optional galvanised skid mounting • High quality control equipment and valves • Option of control head, water actuated, air actuated or electrical actuated valves • Potable grade media • Option of modular integration, e.g. duplex, triplex, duty/standby • Ex factory or onsite loading of media for tight spaces • Regenerent dosing system

MANGANESE GREENSAND FILTER SIZES Size

Width

Height

Inlet/Outlet

Waste

1 2 3 4

16"

65"

50mm

40mm

206kg

25 LPM

21"

62"

50mm

40mm

300kg

39 LPM

24"

71"

50mm

40mm

464kg

57 LPM

30"

72"

50mm

40mm

762kg

90 LPM

5

36"

72"

50mm

40mm

975kg

135 LPM

6

42" Aquamatic

72"

80mm

80mm

1500kg

182 LPM

7

42" Pneumatic

72"

80mm

80mm

1500kg

182 LPM

8

42" Electrical Actuated

72"

80mm

80mm

1500kg

182 LPM

9

48" Aquamatic

72"

80mm

80mm

2200kg

234 LPM

10

48" Pneumatic

72"

80mm

80mm

2300kg

234 LPM

11

48" Electrical Actuated

72"

80mm

80mm

2300kg

234 LPM

Product Flow

TECHNICAL SPECIFICATIONS

OPERATING PARAMETERS

Design: Iron, manganese and hydrogen sulphide removal Configuration: Continuous regeneration and intermittent regeneration Pressure Vessel: Fibre Reinforced Plastic (FRP) Media: Manganese Greensand Operating Pressure: 300 – 690 kPa Operating Temperature: 5 – 45°C Max Iron Removal: 10mg/l Dissolved Iron pH Range: 6.2 – 8.8

• A pressure reduction valve should be installed in areas of high pressure (above 690kPa) • A water hammer arrestor should also be installed if water hammer prevails • Suspended solids: max 50 mg/l • Iron and Manganese: max 15mg/l • Alkalinity should be greater than two times the combined sulphate and chloride concentration Note: Due to complexities of iron, manganese and hydrogen sulphide, it is recommended that product selection be referred to your Continental Water sales representative

SYSTEM INCLUSIONS • Potassium permanganate dosing unit • Inlet and outlet pressure gauges • Inlet and outlet isolating valves • Service flow controller • UPVC or ABS pipe work • Time clock and microprocessor volume controller

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Weight


ELECTRIC SYSTEMS

NEXTSAND FILTERS FEATURES • FRP Vessel • UPVC or ABS pipe work assembly • Optional galvanised skid mounting • High quality control equipment and valves • Option of control head, water actuated, air actuated or electrical actuated valves • Potable grade media • Option of modular integration, e.g. duplex, triplex, duty/standby • Ex factory or onsite loading of media for tight spaces

NEXT SAND FILTER SIZES Size

Width

Height

Inlet/Outlet

Waste

Weight

Product Flow

1

16"

65"

50mm

40mm

200kg

55 LPM

2

21"

62"

50mm

40mm

350kg

109 LPM

3

24"

71"

50mm

40mm

450kg

180 LPM

4

30"

72"

50mm

40mm

650kg

223 LPM

5

36" Aquamatic

72"

50mm

40mm

800kg

262 LPM

6

36" Pneumatic

72"

80mm

80mm

850kg

262 LPM

7

36" Electrical Actuated

72"

80mm

80mm

900kg

262 LPM

8

42" Aquamatic

72"

80mm

80mm

1000kg

434 LPM

9

42" Pneumatic

72"

80mm

80mm

1100kg

434 LPM

10

42" Electrical Actuated

72"

80mm

80mm

1100kg

434 LPM

11

48" Aquamatic

72"

100mm

100mm

1550kg

570 LPM

12

48" Pneumatic

72"

100mm

100mm

1700kg

570 LPM

13

48" Electrical Actuated

72"

100mm

100mm

1700kg

570 LPM

TECHNICAL SPECIFICATIONS Design: Sediment removal and turbidity reduction Pressure Vessel: Fibre Reinforced Plastic (FRP) Media: Nextsand Operating Pressure: 300 – 690 kPa Operating Temperature: 5 – 45°C Filtration Rate: 3 – 5 micron pH Range: 5.5 – 9

SYSTEM INCLUSIONS • Inlet and outlet pressure gauges • Inlet and outlet isolating valves • Service flow controller & Backwash flow controller • UPVC or ABS pipe work • Time clock or microprocessor volumetric controller

OPERATING PARAMETERS • A pressure reduction valve should be installed in areas of high water pressure (above 690kPa) • A water hammer arrestor should also be installed if water hammer prevails • Suspended solids: max 100 mg/l • Not recommended for colloidal sediment removal

Pictures are for illustration purposes only Dimensions and capacities are approximate only

21


ELECTRIC SYSTEMS

BAG FILTERS FEATURES • Polypropylene filter housing • Galvanised skid mounting • UPVC or ABS pipe work and valves • UV stabilised • Option of modular integration • Wide range of micron ratings • Stainless Steel filter housings available

BAG FILTER SIZES Size

Width

Height

Inlet/Outlet

Waste

Flow Rate

Single SX-100

465mm

800mm

1207mm

50mm

150 LPM

Dual SX-100

800mm

900mm

1208mm

75mm

300 LPM

Triple SX-100

550mm

1200mm

1032mm

80mm

450 LPM

TECHNICAL SPECIFICATIONS Design: Sediment removal according to filtration rate Capacity: 150LPM per each S – 100 5µm bag Operating Pressure: <650 kPa Operating Temperature: 0 – 100°C Bag Material: Polypropylene restrainer bag Bag Dimensions: 6" (D) X 20" (L) Micro Rating: 1,5,10,25,50,75,100

SYSTEM INCLUSIONS • Inlet and outlet pressure gauges • Bleeding valve • Sample valve

Pictures are for illustration purposes only Dimensions and capacities are approximate only

22


ELECTRIC SYSTEMS

DMI-65 FILTERS FEATURES • FRP Vessel • UPVC or ABS pipe work assembly • Optional galvanised skid mounting • High quality control equipment and valves • Option of control head, water actuated, air actuated or electrical actuated valving • Potable grade media • Oxidant dosing system with dose rate recommendations and instructions • Ex factory or onsite loading of media for tight spaces • Option of modular integration, e.g. duplex, triplex, duty/standby

DMI-65 FILTER SIZES Size

Width

Height

Inlet/Outlet

Waste

Weight

1

16"

65"

50mm

40mm

250kg

2

21"

62"

50mm

40mm

400kg

3

24"

71"

50mm

40mm

400kg

4

30"

72"

50mm

40mm

870kg

5

36" Magnum

72"

50mm

40mm

1200kg

6

42" Aquamatic Stager

72"

80mm

80mm

1700kg

7

42" Electrical Actuated

72"

80mm

80mm

1750kg

8

42" Pneumatic Actuated

72"

80mm

80mm

1750kg

9

48" Aquamatic Stager

72"

80mm

80mm

2300kg

10

48" Electrical Actuated

72"

80mm

80mm

2400kg

11

48" Pneumatic Actuated

72"

80mm

80mm

2400kg

Flow Rate is dependant on applications

TECHNICAL SPECIFICATIONS

OPERATING PARAMETERS

Design: Iron, Manganese and Hydrogen Sulphide removal Pressure Vessel: Fibre Reinforced Plastic (FRP) Media: DMI – 65 and under bed gravel Operating Pressure: 300 – 690 kPa Operating Temperature: 5 – 45°C Max Iron Removal: 15 mg/l dissolved iron pH Range: 5.8 – 8.6 Chlorine Residual: 0.2mg/l

• A pressure reduction valve should be installed in areas of high water pressure (above 690kPa). • A water hammer arrestor should also be installed if water hammer prevails. • Suspended solids: max 50mg/l • Iron and Manganese: max 15mg/l • Alkalinity should be greater than two times the combined sulphate and chloride concentration.

SYSTEM INCLUSIONS • Chlorination dosing unit • Inlet and outlet pressure gauges • Inlet and outlet isolating valves • Service flow controller • Backwash flow controller • UPVC or ABS pipe work • Flash mixing chamber • Time clock or microprocessor volume controller

23


SPECIFICATIONS

KINETICO NON-ELECTRIC SYSTEMS OUR RANGE OF NON-ELECTRIC CONFIGURATIONS ARE BUILT TO YOUR SPECIFIC REQUIREMENTS.

24


KINETICO NON–ELECTRIC SYSTEMS

KINETICO NON-ELECTRIC FILTERS MACROLITE Size

Flow Rates @ 6.8 LPS/ m2

Nominal clean bed pressure drop (bar)

Backwash Flow Rate per tank (lps)

Media Volume Per Tank Ft3 (Litres)

Backwash Volume (Litres)

Application

Backwash Time(min)

Tanks (1)

HF118m

1.07

0.19

0.88

71

825

5 micron

20

18"x65"

HF121m

1.51

0.23

1.26

99

1105

5 micron

20

21"x62"

HF124m

1.96

0.28

1.58

142

1441

5 micron

20

24"x65"

HF130m

3.09

0.52

2.52

227

2226

5 micron

20

30"x72"

HF136m

4.42

0.87

3.47

340

3178

5 micron

20

36"x72"

HF142m

6.06

1.48

4.73

396

4298

5 micron

20

42"x72"

CARBON Size

Flow Rates @ 6.8 LPS/ m2

Nominal clean bed pressure drop (bar)

Backwash Flow Rate per tank (lps)

Media Volume Per Tank Ft3 (Litres)

Backwash Volume (Litres)

Application

Backwash Time(min)

Tanks (1)

HF118cb

0.95

0.07

1.26

85

993

Dechlor/Organics

20

18"x65"

HF121cb

1.26

0.10

1.58

113

1385

Dechlor/Organics

20

21"x62"

HF124cb

1.64

0.13

2.21

170

1777

Dechlor/Organics

20

24"x65"

HF130cb

2.52

0.29

3.47

283

2786

Dechlor/Organics

20

30"x72"

HF136cb

3.60

0.52

4.73

396

3962

Dechlor/Organics

20

36"x72"

CALCITE Size

Flow Rates @ Nominal 6.8 LPS/m2 clean bed pressure drop (bar)

Backwash Flow Rate per tank (lps)

Media Volume Per Tank Ft3 (Litres)

Backwash Volume (Litres)

Application

Backwash Time(min)

Tanks (1)

HF118n

0.69

0.05

0.95

85

993

Raise PH

20

18"x65"

HF121n

0.95

0.07

1.26

113

1385

Raise PH

20

21"x62"

HF124n

1.20

0.08

1.58

170

1777

Raise PH

20

24"x65"

HF130n

1.89

0.17

2.52

283

2786

Raise PH

20

30"x72"

HF136n

2.71

0.31

4.42

510

3962

Raise PH

20

36"x72"

SYSTEM TYPE Type

A (mm)

B (mm)

C (mm)

D (mm)

E (mm)

F (mm)

G (mm)

HF X18

457

1727

2108

102

1016

1575

711

HF X 21

533

1651

2032

102

1168

1803

787

HF X 24

610

1727

2108

102

1321

2032

864

HF X30

762

2184

2565

102

1626

2489

1016

HF X36

914

2108

2489

102

1930

2946

1168

HF X42

1067

2413

2794

102

2235

3404

1321

The “X" in the system size description refers to the number of tanks: Simplex = 1, Duplex = 2, Triplex = 3

HYDRUS VALVE CONNECTION DETAIL 50mm MNPT 25


ELECTRIC SYSTEMS

WATER SOFTENE

26


INDUSTRIES ELECTRIC SYSTEMS

ERS WATER IS REFERRED TO AS “HARD” IF IT CONTAINS A LOT OF CALCIUM AND MAGNESIUM. GROUNDWATER ACQUIRES THESE MINERALS BY DISSOLVING THEM FROM SURROUNDING SOIL AND ROCK. You can easily see the effects of hard water including low sudsing when using soaps and detergents, which leaves a residue on skin, clothes and hair. This can lead to red itchy skin and irritation. But what does this mean for commercial applications? Hard water causes dissolved calcium and magnesium to precipitate out of hard water as scale, which builds up on the insides of pipes and industrial machinery. Scale reduces flow through pipes and is a poor conductor of heat. Eventually, pipes can become completely clogged and less functional. Without an effective water softener solution, valuable production time can be lost in repairs and reduce water flow rates, plus the life of your production system can be dramatically shortened. All water softeners use a process called Ion Exchange to remove the magnesium and calcium and produce water which does not leave scale or unwanted residue in your manufacturing system. Continental Water Systems offer a broad range of local and off shore systems to suit every application, budget and project size. We supply IBC single, duplex and triplex systems and Kinetico non-electric systems which can be serviced on a regular basis by our locally based service team. 27


ELECTRIC SYSTEMS

WATER SOFTENER APPLICATIONS

MINING

28

COMMERCIAL KITCHENS

BOILERS

MUNICIPAL

CHEMICAL MANUFACTURING

DRY CLEANERS & LAUNDRIES

DRINK MANUFACTURING


INDUSTRIES

ELECTRIC AND KINETICO NONELECTRIC WATER SOFTENERS

29


ELECTRIC WATER SYSTEMS SOFTENERS

SINGLE, DUPLEX AND TRIPLEX SYSTEMS An IBC Water Softener uses Cation resin which will exchange its sodium with Calcium and Magnesium in the water. This reaction is reversed in the regeneration process, when at a pre-set time; brine (saturated salty water) is drawn up from an attached brine tank and is flushed through the resin to remove the Calcium and Magnesium to waste.

FEATURES • FRP Vessel • UPVC or ABS pipe work assembly • Optional galvanised skid mounting • High quality control equipment and valves • Option of control head, water actuated, air actuated or electrical actuated valves • Potable grade media • Option of modular integration • Ex-factory or onsite loading of media for tight spaces • Brine drawing system with dose rate recommendations • Brine storage tank

WATER SOFTENER SYSTEM SIZES Size

Width

Height

Inlet/ Outlet

Waste

Brine Line

Resin

1

16"

65"

2

21"

72"

3

24"

4

30"

5

36"

6

42"

7

48"

Soft Usage (Min-Max)kg

Weight

Brine Tank

50mm

40mm

20mm

50mm

40mm

20mm

125L

(8-30)

255kg

24"x50"

175L

(11-43)

311kg

24"x50"

72"

50mm

40mm

20mm

225L

(16-61)

560kg

24"x50"

72"

50mm

40mm

20mm

500L

(32-120)

1015kg

30"x48"

72"

50mm

40mm

20mm

600L

(38-144)

1158kg

39"x60"

72"

80mm

50mm

20mm

850L

(54-204)

1300kg

42"x60"

72"

80mm

50mm

20mm

1125L

(72-270)

1700kg

50"x60"

TECHNICAL SPECIFICATIONS Design: Calcium and Magnesium hardness removal Pressure Valve: Fibre Reinforced Plastic (FRP) Media: Under bed gravel, strong cation resin Operating Pressure: 300 – 690 kPa Operating Temperature: 5 – 45°C Ph Range: 5.5 – 9

SYSTEM INCLUSIONS • Inlet and outlet pressure gauges • Inlet and outlet isolating valves • Service flow controller • Backwash flow controller • UPVC or ABS pipe work • Time clock or microprocessor volumetric controller • Brine tank in brine well • Duplex and triplex options available for the full range of softeners

OPERATING PARAMETERS A pressure reduction valve should be installed in areas of high water pressure (above 690kPa). A water hammer arrestor should also be installed if water hammer prevails.

30

Pictures are for illustration purposes only Dimensions and capacities are approximate only


SYSTEMS KINETICO NON-ELECTRIC ELECTRIC WATER SOFTENERS

KINETICO MACH SERIES EXCLUSIVE MACH SERIES NON-ELECTRIC CONTROL VALVE Kinetico delivers an exclusive non-electric control valve which eliminates the need to adjust, set, repair or replace timers, computers or electrical components. The Kinetico control valve simultaneously manages two media tanks through service and regeneration cycles. Water pressure, not electricity, runs the system. As water passes through the control valve, a water turbine meters the amount of water processed by the systems. The valve automatically initiates regeneration after the predetermined amount of water has been treated. As the system is comprised of two media tanks, soft water can be used for the complete regeneration process which substantially improves the system’s efficiency and the product water quality.

SYSTEM UPGRADES AND OPTIONS • Kinetico’s Water Softener systems allow your system to grow as your business expands • Adjustable meter range based on interchangeable flow nozzles – from 0.19 LPM and as high as 90 LPM.

FEATURES • System by-pass valve allows for quick and easy installation, service and maintenance of the system. • Quick Connect Adaptors • Allow for installation to 0.75", 1' and 1.25" plumbing • 0/75' Flexible Hose • Metered, Demand Operated • Only regenerates when necessary which saves salt • Twin Tank System • Provides an uninterrupted supply of clean, soft water that is also used to make brine for the regeneration.

31


NON-ELECTRIC WATER SOFTENERS

KINETICO CC SERIES CC SERIES COMPACT COMMERCIAL WATER SOFTENING SYSTEMS The CC Series Water Softener is designed as a high performance system for applications where space is critical. In addition to the efficient design of the system, the unit is loaded with features making the CC Series Water Softener the perfect choice even when space is not an issue.

FEATURES • Cabinet and free-standing designs which are compact and save space • Corrosion, heat and moisture resistant • Installs anywhere! • Non-solvent cation resin provides high system capacity • Soft Water, counter current regeneration. An ideal regeneration system delivering reduced water usage and premium quality process. • Automatic – non electric operation using hydraulic water pressure and no electrical hook up

WATER SOFTENER SYSTEMS CC RANGE Specifications

CC206s

CC206c

CC208s

CC208c

Tank Size (cm)

15x33

15x33

20x43

20x43

Service Flow

Up Flow

Up Flow

Up Flow

Down Flow

Brine Tank Capacity

Optional

18kg

Optional

45kg

Regeneration Volume (litres)

22

22

63

40

Regeneration Time

11 minutes

11 minutes

11 minutes

11 minutes

Peak Temperature

49°C

71°C

49°C

71°C

Continuous Temperature

38°C

65°C

38°C

65°C

Dimensions (WxDxH) (cm)

33x15x51

36x36x56

43x 20x64

51x61x71

Flow Meter Options (standard)

CC206s

CC206c

CC208s

CC208c

Flow Range (LPM)

1-34

1-34

1-38

1-38

Meter Volume (litres)

2206

2206

2770

2770

Salt Used (kg)

0.2/0.45

0.2/0.45

0.45/0.6

0.45/0.6

Hardness Range (ppm)

342/513

342/513

598/718

598/684

Flow Range (LPM)

0.18-0.6

0.18-0.6

0.18-0.6

0.18-0.6

Meter Volume (litres)

230

230

230

230

Salt Used (kg)

0.3

0.3

0.45

0.45

Hardness Range

40

40

50

50

Flow Range (LPM)

0.6-19

0.6-19

0.6-19

0.6-19

Meter Volume (litres)

946

946

1192

1192

Salt Used (kg)

0.3

0.3

0.6

0.6

Half Louvre Nozzle

Micro Nozzle (optional)

* Based on specification of external meter

32


NON-ELECTRIC ELECTRIC WATER SOFTENERS SYSTEMS

KINETICO COMMERCIAL PLUS (CP SERIES) THE CP SERIES – WATER SOFTENERS The CP Series water softener is ideal when expectations for both performance and efficiency are high and cannot be compromised. The Kinetico control valve allows larger, commercial applications to enjoy the same benefits normally reserved for smaller installations.

FEATURES • Automatic, non-electric operation • Overdrive or alternating service flow configuration • Metered, demand operated • Variable meter ranges • Soft water, counter current regeneration • Maximum hardness reduction • Efficient, low cost operation • Corrosion-resistant

OPTIONS AND ACCESSORIES • Modular design to allow for system growth • Central brining systems • Remote start using an external signal to initiate regenerations when needed • Adjustable meter range created by interchangeable flow nozzles, from 1.9 LPM to 189 LPM

CP SERIES SPECIFICATIONS Specifications

CP 213s OD

CP 216s OD

Tank Size (cm)

33x137

41x165

System Size cm (wxdxh)

68x33x152

83x41x180

Resin Volume per Tank

0.23m

0.37m

Regeneration Time/Volume

90 min/538 litres

90 min/ 606 litres

Brining Levels

6.8/11kg

11/18kg

Recommended Brine Tank Size

227kg

227kg

Flow Meter

Full Louvre

Open Louvre

Meter Range (LPM)

2.8-151

4.1-189

Flow Range 915/30 (psi) Overdrive (LPM)

106-151

132-178

Alternating (LPM)

76-114

87-125

Max Hardness (ppm) (Overdrive/Alternating)

684/872

684/838

Maximum Volume between Regenerations

33,000 litres

57,500 litres

1.1-83

1.1-94

Flow Meter Options Flow Range (LPM)

Full Louvre Nozzle (Standard with CP213s) Flow Range (OD) (LPM)

2.8-151

2.8-151

Flow Range (ALT) (LPM)

2.8-113

2.8-113

Open Louvre Nozzle (Standard with CP216s) Flow Range (OD) (LPM)

2.8-15

2.8-15

Flow Range (ALT) (LPM)

4.2-125

4.2-125

Flow Start (LPM)

0-170

0-189

Start Signal Flow (LPM)

1.9

1.9

Start Signal Pressure

15 psi

15 psi

Start Signal Time

15 min

15 min

Remote Start

33


ELECTRIC NON-ELECTRIC SYSTEMS WATER SOFTENERS

HYDRUS SOFTENING SYSTEMS EXPERIENCE THE KINETICO DIFFERENCE Until now, all industrial water softeners have been the same; they use large amounts of salt to regenerate and simultaneously allow some hard water to leak into service. Kinetico’s Hydrus water softeners are different. The Hydrus water softener is the only multi-port system to use counter current, soft water regeneration right out of the box. This proven and trusted method of operation results in up to a 40 percent reduction in salt use when compared to other units. In addition waste water volumes are reduced by as much as 30 percent, making Hydrus a more environmentally responsible water treatment product than others. Water quality from a Hydrus water softener is significantly better than the water quality from a traditional co-current or hard water regenerating system. With a Hydrus system, hardness leakage will be reduced by as much as 95 percent.

HYDRUS WATER SOFTENERS TANK CONFIGURATIONS SINGLE-TANK CONFIGURATION Simplex – Uses raw water to regenerate. This configuration is the most economical to purchase and the most space efficient. However, operational costs and waste production are not the lowest. Additionally, it does not offer the best water quality.

MULTI-TANK CONFIGURATIONS Duplex – Uses soft water to regenerate. This design is suited for intermittent higher flow designs. Triplex – Uses soft water to regenerate. This configuration is ideal for continuous high flow rate applications where water quality and regeneration efficiency are vital, such as chlorine production, batch filling operations, boiler feed and other critical applications. The Triplex design effectively regenerates one tank at a time with only a minimal pressure drop. Multi-Tank – Uses soft water to regenerate. This system ensures high flow rates with almost no detectable pressure drops during regeneration. The design offers high salt efficiency and the softest water possible.

34


ELECTRIC SYSTEMS

HYDRUS WATER SOFTENERS TANK CONFIGURATIONS Flow@ 15 psi/ 1.03 bar Loss (LPS)

Flow@ 30 psi/ 2.06 bar Loss (LPS)

BFlow@ 30 psi/ 2.06 bar Loss (LPS)

Resin Volume Per Tank Litres

Regeneration Volume Per Tank Litres

Regeneration Efficiency (gr CaCo3/ ib NaC1)

Regeneration Time Per Tank (min)

Hard Water (HW) By-pass

Tank Size

HS118s

2.84

4.04

0.50

142

1,480

3,333

120

HW (1)

18x65

HS121s

3.47

4.92

0.63

170

1,669

3,333

120

HW (1)

21x62

HS124s

4.10

5.80

0.95

227

2,131

3,333

120

HW (1)

24x65

SIMPLEX

HS130s

4.54

6.37

1.26

340

3,229

3,333

150

HW (1)

30x72

HS136s

4.92

6.94

1.89

510

4,785

3,333

150

HW (1)

36x72

HS142s

5.11

7.26

2.52

736

6,007

3,333

150

HW (1)

42x72

HS218s

5.68

8.08

0.50

142

1,151

>4000

120

None (2)

18x65

HS221s

6.94

9.84

0.63

170

1,314

>4000

120

None (2)

21x62

HS224s

8.20

11.61

0.95

227

1,715

>4000

120

None(2)

24x65

HS230s

9.08

12.74

1.26

340

3,055

>4000

150

None (2)

30x72

HS236s

9.84

13.88

1.89

510

4,493

>4000

150

None (2)

36x72

HS242s

10.22

14.51

2.52

736

6,208

>4000

150

None (2)

42x72

HS318s

8.52

12.11

0.50

142

1,151

>4000

120

None (3)

18x65

HS321s

10.41

14.76

0.63

170

1,314

>4000

120

None (3)

21x62

DUPLEX

TRIPLEX

HS324s

12.30

17.41

0.95

227

1715

>4000

120

None (3)

24x65

HS330s

13.63

19.12

1.26

340

3,055

>4000

150

None (3)

30x72

HS336s

14.76

20.82

1.89

510

4,493

>4000

150

None (3)

36x72

HS342s

15.33

21.77

2.52

736

6,208

>4000

150

None (3)

42x72

35


MEMBRANE TECHNOLOGY

MEMBRA SYSTEMS

36


MEMBRANE INDUSTRIES TECHNOLOGY

ANE S WATER IS A PRECIOUS RESOURCE. AS THE DEMAND FOR WATER GROWS, MEMBRANE TECHNOLOGY IS AN AREA OF THE INDUSTRY WHICH IS BEING HEAVILY RESEARCHED AND CONSTANT INNOVATIONS ARE BEING MADE TO ENHANCE THE END QUALITY OF WATER TREATED. Membranes for water applications are being highlighted as a potentially cost-effective option to deliver a range of purification and separation needs. They can be used across human, industrial and environmental applications and make the need for traditional water treatment methods, such as physical separation techniques, chemical treatments and evaporation techniques, redundant. Membrane Technology uses selectively permeable barriers, with pores sized to allow for the travel of water molecules but small enough to block the passage of unwanted particles and compounds. In 1950, Membrane Technology treatment was introduced in the desalination treatment of brackish, ground water and seawater. Continued advances in materials, designs and process combinations have today seen a big increase in affordable, chemical free, environmentally friendly applications across a broad range of industries. 37


MEMBRANE TECHNOLOGY CASE STUDY

TRENDPAC Trendpac was established in 1963 and is a 100 percent Australian family owned business – celebrating its 50th anniversary it is a continually growing business. Trendpac offers a full range of manufacturing, packaging and product development services in the following areas; • Personal care products • Household cleaning products • Industrial cleaning products • Pet care • Car care • Plastic moulding and packaging Trendpac supplies some of Australia’s biggest supermarket chains and leading multi-national publicly listed companies. The plant covers 30 acres and is in operation 24/7 producing batches from 2,000 litres to 10,000 litres. With its own transportation system trucks are continually shipping product to supply their FMCG customers. Given the size of the manufacturing plant and production volumes it is crucial that all supporting systems deliver.

The treated water is directed to a storage tank with a 27,000 litre capacity which can be sent to production at a moment’s notice. Stored water is passed through an ultraviolet system and Ozone Oxidiser to eliminate any bacteria which may have formed while the water was in storage. The water is then released back into the main plant production process.

Continental really delivered, the team know their stuff. We have a monthly service contract with Continental who clean and sanitise the RO systems and make sure all the supporting water applications are functioning as they should.

Water is a vital part of the manufacturing process. Without pure water the products would contain harmful bacteria which would impact the quality in countless ways, including shortened shelf life in store, surface contamination from cleaning products and ultimately loss of credibility of both Trendpac and the customers they supply. Continental Water was invited to tender for the installation of a Reverse Osmosis (RO) system with the capacity to treat 120,000 litres per day. The RO system is part of a combined system with the primary function of supplying a continuous feed of treated water aligned with Trendpac’s 24 hour production schedule. An in built self-testing unit regularly tests the water to maintain optimum purity to prevent unwanted contaminates entering the production process.

38

Bob Wright Trendpac, Production Maintenance Manager

Feedback from Bob Wright, Trendpac, Production Maintenance Manager when asked about the system was positive, “Continental really delivered, the team know their stuff. We have a monthly service contract with Continental who clean and sanitise the RO systems and make sure all the supporting water applications are functioning as they should.” In a business that relies on high volumes of RO water our RO system can meet the demands of a 24/7 operation producing high volumes of industrial and residential cleaning product. Want to know more about Trendpac and their services visit www.trendpac.com.au


1 1. 10KL/hour Reverse Osmosis System 2. Multimedia Tanks 3. Reverse Osmosis water storage & Ozone disinfection 4. Reverse Osmosis Systems 5. Ozone disinfection & Macrolite Filtration System 6. Batches are mixed with water prior to bottling

2 3

4

5

6

39


MEMBRANE ELEMENTS WHICH IS BEST FOR YOUR APPLICATION? Membrane elements cross the spectrum of membrane including reverse osmosis (RO), ultrafiltration (UF). Originally RO membranes were designed for water desalination, spiral wound membranes are now used in a variety of applications including agriculture, manufacturing high purity water and at high temperature and extreme pH conditions. There are a number of RO membranes for varying applications.

1. LOW ENERGY These RO elements are selected when high rejection, high flow and ultra-low operating pressures are desired.

YACHTING

2. FOULING RESISTANT Thin-film reverse osmosis (RO) membrane elements are characterised by high flow, high sodium chloride rejection and low fouling surface properties.

3. BRACKISH WATER Membranes designed for many applications including bore water where higher Total Dissolved Solids (TDS) levels are expected.

4. SEA WATER Used almost exclusively in water containing above 15,000ppm and up to 35,000 ppm of Total Dissolved Solids (TDS).

5. RO MEMBRANES

AGRICULTURE

Typically are available in a number of different sizes to meet most flow rate requirements.

6. ULTRAFILTRATION (UF) A separation process using membranes with pore sizes in the range of 0.1 to 0.001 micron. Typically, UF membranes will remove high molecular-weight substances, colloidal materials, and organic and inorganic polymeric molecules. Low molecular-weight organics and ions such as sodium, calcium, magnesium chloride, and sulfate are not removed by UF Membranes.

BORE WATER

40


DESALINATION TREATMENTS

MINING

DRINKING WATER PURIFICATION

PURE WATER – TYPE I AND II FOR LABORATORIES

FOOD AND BEVERAGE INDUSTRY

WATER AND WASTE WATER

41


INDUSTRIES

ULTRAFILTRATION ULTRAFILTRATION IS A SEPARATION PROCESS USING MEMBRANES WITH PORE SIZES IN THE RANGE OF 0.1 TO 0.001 MICRONS. TYPICALLY, ULTRAFILTRATION WILL REMOVE HIGH MOLECULAR-WEIGHT SUBSTANCES, COLLOIDAL MATERIALS AND ORGANIC AND INORGANIC POLYMERIC MOLECULES. Ultrafiltration, like Reverse Osmosis, is a cross – flow separation process. Here liquid stream to be treated (feed) flows tangentially along the membrane surface, thereby producing two streams. The stream of liquid that comes through the membrane is called permeate.

depositories of suspended solids and have to be cleaned or replaced frequently. Conventional filters are used upstream from the membrane system to remove relatively large suspended solids and to let the membrane do the job of removing fine particles.

Conventional filters such as media filters or cartridge filters, only remove suspended solids by trapping these in the pores of the filter – media. These filters therefore act as

In ultrafiltration, for many applications, no pre filters are used and ultrafiltration modules concentrate all of the suspended and emulsified materials.

APPLICATIONS • Pretreatment of Reverse Osmosis systems • Removal of Suspended Solids • Post Waste Water treatment plants • Laboratory grade water purification • Industrial wastewater treatment • Drinking water disinfection (including removal of viruses) • Removal of endocrines and pesticides combined with Suspended Activated Carbon pretreatment

42


MEMBRANE TECHNOLOGY

ULTRAFILTRATION SYSTEM Efficient ultrafiltration systems utilise membranes which can be submerged, are back-flushable, air scoured as well as spiral wound UF/MF membranes. They offer superior performance for the clarification of wastewater and process water.

FEATURES • High quality hollow fibre membranes • Feed & backflush pumps • Control valves • Process pressure gauges and flow meters • Stainless steel frame • APVC and ABS pipe work and valves • PLC controlled with option of HMI, GSM dialler or SCADA remote monitoring • Containerised or modular integration

TECHNICAL SPECIFICATIONS Design: Removal of turbidity, bacteria Configuration: Out to in (dead end) or in to out Recovery: 75-95% Trans Membrane Pressure: < 8 psi (service) <14 psi (backflush) Operating Temperature: < 50°C Membrane Type: Hollow fibre UF membrane pH Range: 3-9 (operating) and 2-11 (washing) Max Feed Turbidity: 100 NTU

SYSTEM INCLUSIONS • UF membrane • Feed and backflush pumps • 2 electrical control valve • Feed, air and backflush pressure gauges • Product variable area flow meter • Air-scouring blower • PVC pipe work, hoses and quick couplings • Electrical control panel with PLC

Pictures are for illustration purposes only Dimensions and capacities are approximate only

43


INDUSTRIES

REVERSE OSMOSIS REVERSE OSMOSIS (RO) IS A MEMBRANETECHNOLOGY FILTRATION METHOD THAT REMOVES MANY TYPES OF LARGE MOLECULES AND IONS FROM SOLUTIONS. It effectively removes turbidity, colloidal matter, toxic metals, micro-organisms, pesticides, sediment, TDS, radioactive elements, asbestos and herbicides.

APPLICATIONS • Desalination treatments • Water and waste water applications • Type III for labs • Drinking water purification • Food and beverage industry • Feed for ultrapure water systems • General chemistry • Laboratory washing machines including final rinse • Feed for autoclaves and environmental chambers • Buffer preparation • Photometry • Spectrophotometry • General chemical analysis • Media preparation • Protein electrophoreses • Microbiological media preparation • Cytology and histology work • Electrophoreses

44


MEMBRANE TECHNOLOGY

REVERSE OSMOSIS A Reverse Osmosis system is able to remove and reject a broad spectrum of impurities from water with minimal energy.

FEATURES • RO high quality membrane modules • High pressure and CIP pumps • CIP tank • Process pressure gauges and flow meters • Skid mounted pre-filters • Stainless steel frame • Pipe work and valves • PLC controlled with option of HMI, GSM, dialler or SCADA remote monitoring • Containerised or modular integration

TECHNICAL SPECIFICATIONS

SYSTEM INCLUSIONS

Design: Membranes using Reverse Osmosis technology to reduce salt levels from bore and river water up to 99.5% to produce the highest quality permeate. Configuration: Spiral wound membrane Recovery: 50 – 85% Operating Pressure: 10 – 21 bar Max Operating Temperature: 45°C Membrane Type: Thin-film composite Membrane Size: 2.5”, 4 and 8 (D) x 40” (L) pH Range (Service mode): 1 – 13 Max Feed. SDI: 5 Max Free Chlorine Concentration: <0.1ppm

• Brackish water spiral wound membrane • Inlet sediment cartridge filter and housing • Pressure gauges • Conductivity sensor • Product, concentrate and permeate variable area flow meter • High pressure stainless steel pipe work (optional) • Isolation ball valve and recovery regulating needle valve • Containerised options are available on request • Feed high pressure and CIP pumps (optional) • Flushing solenoid valve • Low and high pressure switches • Low pressure PVC pipe work • Antiscalant dosing (optional) • Cleaning in place (CIP) tank and cartridge (optional) • Low level, low pressure, high pressure alarm • Electrical Control Panel with PLC or RO Controller • Galvanised or stainless steel skid

Pictures are for illustration purposes only Dimensions and capacities are approximate only

45


MEMBRANE TECHNOLOGY

RO/EDI SYSTEM This system delivers superior Reverse Osmosis water purification solutions for the most high end laboratories and health care requirements. The Continental Water RO/EDI system uses resin in a single bed configuration to deionise water. The deionisation process significantly reduces the number of bacteria in the water, as the electrodes that contact the resin create an electric potential that the bacteria cannot live in. While the pH shift in the cells helps with the removal of the SiO2 and CO2 and reduces bacterial growth.

FEATURES • Resin is continually regenerated without chemicals • Energy consumption is low saving you on energy bills • Water quality is constantly maintained • System designed to have various additional components based on water purity needs and business growth • Compact size for easy installation • CO2 traps for the tank • UV Oxidisation and disinfection • Sterile environment • Finest quality materials used in the manufacturing

46


INDUSTRIES

KINETICO TL SERIES COMMERCIAL MEMBRANE SYSTEMS

WHAT IS THE EVERCLEAN RINSE SYSTEM?

The TL Series from Kinetico is ideal for high quality water solutions when space is at a premium and water conservation is needed. The TL Series features Kineticoâ&#x20AC;&#x2122;s patented EverClean rinse.

If your system has a raw water flush or no flush, dissolved solids travel through the membrane when the system is idle and appear in the product water upon start-up. Accelerated membrane fouling also occurs, decreasing membrane life and increasing maintenance costs. Kineticoâ&#x20AC;&#x2122;s patented EverClean rinse eliminates the potential for low quality start-up water and extends membrane life. The EverClean rinse is standard on all TL Series systems.

54"

22"

20"

47


MEMBRANE TECHNOLOGY

KINETICO TL SERIES TL SERIES FEATURES • Extended membrane life • Easily expanded • EverClean rinse • Variable recovery • Compact design • High permeate output • Digital micro-processor controlled • Quiet operation

PLANT SIZES Specifications

TL 2000

TL 4000

TL 6000

TL 8000

System Size (wxdxh) cm

51x56x137

51x56x137

51x56x137

51x56x137

Membrane Type

TF Low Energy

TF Low Energy

TF Low Energy

TF Low Energy

EverClean Rinse

Standard

Standard

Standard

Standard

Power (voltage/hz)

230/60 – 230/50

230/60 – 230/50

230/60 – 230/50

230/60 – 230/50

Feed Pressure (psi/bar)

15-50 / 1 -3.4

15-50 / 1 -3.4

15-50 / 1 -3.4

15-50 / 1 -3.4

Operating Temperature °C

1.6 – 32.2

1.3 – 32.2

1.3 – 32.2

1.3 – 32.2

Inlet Flow Rate LPM*

10.4

20.8

31.4

41.6

Permeate Flow Rate LPM*

5.2

10.4

15.7

20.8

Reject Flow Rate LPM*

5.2

10.4

15.7

20.8

Rejection Rate

92%/98%

92%/98%

92%/98%

92%/98%

Daily Production LPD*

7,500

15,140

22,710

30,280

TDS (Max) as NaCL mg/L

3,000

3,000

3,000

3,000

*Based in 24 hour operation, 25°C, 500 TDS feed, permeate to atmospheric tank, 50 psi (3.54 bar) inlet pressure

SYSTEM INCLUSIONS • Range of sizes from 7,500 to 30,000 litres per day of high quality permeate water • Low energy, high rejection membranes for colder water and or lower pressure water line and drain • Simple expansion any TL Series can grow to a 30,000 litres per day as your business grows • EverClean rinse cleans the membrane to protect water quality and extend the life of the membrane • Prefilter improves water feed quality by removing solids • Digital micro-processor for automated control and precise operation • Panel mounted gauges for accurate pressure readings

48

ACCESSORIES AND SYSTEM EXTENSIONS • Pre treatments • Carbon Filtration for chlorine removal to extend membrane life and improve water quality • Filtration improves feed water quality by removing solids • Softening increases Reverse Osmosis system performance by eliminating hardness fouling to extend membrane life and water quality • Storage and repressurisation systems • Systems which provide a constant supply and pressure of high quality permeate water • Standard Bladder Tank – sizes up to 300 litres • Atmospheric Tank – sizes to suit most applications


INDUSTRIES

THE DESALINATION PROCESS DESALINATION REFERS TO ANY OF SEVERAL PROCESSES THAT REMOVE SOME AMOUNT OF SALT AND OTHER MINERALS FROM SALINE WATER. MORE GENERALLY, DESALINATION MAY ALSO REFER TO THE REMOVAL OF SALTS AND MINERALS. Salt water is desalinated to produce fresh water suitable for human consumption or irrigation. One by-product of desalination is salt. Desalination is used on many seagoing ships and submarines. Most of the modern interest in desalination is focused on developing cost-effective ways of providing fresh water for human use. Along with recycled wastewater, this is one of the few rainfall-independent water sources. Large-scale desalination typically uses large amounts of energy and specialised, expensive infrastructure, making it more expensive than fresh water from conventional sources, such as rivers or groundwater. Desalination is particularly relevant to countries, such as Australia, which traditionally have relied on collecting rainfall behind dams to provide their drinking water supplies.

The traditional process used in these operations is vacuum distillation â&#x20AC;&#x201C; the boiling of water at less than atmospheric pressure and thus a much lower temperature than normal. Because of the reduced temperature, energy is saved in the desalination process. The principal competing processes use membranes to desalinate, principally applying Reverse Osmosis technology. Membrane processes use semipermeable membranes and pressure to separate salts from water. Reverse Osmosis plant membrane systems typically use less energy than thermal distillation, which has led to a reductionin overall desalination costs over the past decade.

49


50


MEMBRANE TECHNOLOGY

SEA WATER REVERSE OSMOSIS This is a membrane process which does not use heating or phase changes. As a result energy requirements are low in comparison to other processes of desalination. The procedure of Reverse Osmosis in this instance produces drinking water from sea water and utilises the following components: intake, pre-treatment, high pressure pump, membrane assembly, remineralisation and pH adjustment, disinfection and control panel.

SYSTEM FEATURES • SWRO high quality membrane modules • High pressure and CIP pumps • CIP tank • Automated control valves • Process pressure gauges and flow meters • Skid mounted pre-filters • PLC controlled with option of HMI, GSM dialler or SCADA remote monitoring • Containerised or modular integration

TECHNICAL SPECIFICATIONS Design: Membranes using Reverse Osmosis technology to reduce high salt levels from sea water up to 99.7% to produce highest quality permeate. Configuration: Spiral wound membrane Recovery: 50-85% Operating pressure: 40 – 65 bar Max operating temperature: 45°C Membrane type: Polyamide thin-film composite Membrane size: 4"and 8" (D) x 40" (L) pH range (service mode): 2 – 11 pH range (cleaning mode): 1 – 13 Max feed SDI: 5 Max free chlorine concentration: <0.1 ppm

SYSTEM INCLUSIONS • Seawater spiral wound membrane • Inlet sediment cartridge or bag filter with housing • Pressure gauges • Product, concentrate and permeate variable area flow meter • Low pressure PVC pipe work • Cleaning in place (CIP) tank and cartridge (optional) • Low level, low pressure, high pressure alarm • Electrical control panel with PLC or RO controller • Containerised options are available upon request • Feed, high pressure CIP pumps (optional) • Flushing solenoid valve • Low and high pressure switches • Conductivity sensor • Variable frequency drive for high pressure pump (option) • High pressure stainless steel pipe work (optional) • Antiscalant dosing unit (optional) • Isolation ball valves and recovery regulating needle value • Galvanised or stainless steel skid.

Pictures are for illustration purposes only Dimensions and capacities are approximate only

51


MEMBRANE TECHNOLOGY

DOLPHIN DESALINATORS SEAWATER MINI RANGE Dolphin Desalinators are suitable for a number of applications including on board vessels, resorts and remote communities. Desalinators can be assembled as either a modular format, where each component can be mounted individually within the space requirements, or as a compact format, being one complete fully assembled unit fitted to a frame. The units produce fresh water for human consumption from a large range of raw water qualities. Water produced is compliant with Australian Drinking Water guideline standards of less than 500mg per litre Total Dissolved Salts. (TDS) We offer two systems to meet various requirements and production needs.

BASIC SERIES Designed to be economical and compact for small vessels and campers. Manually operated this Reverse Osmosis system is not suitable for 24/7 operation. Basic – 30 to 208 litres per hour

YACHTY SERIES Suited for larger yachts and vessels that require a quality semi – automatic desalinator and value for money. Yachty 8,000 – 25,000 litres per day

SYSTEM FEATURES • Frame mounted or modular (Yachty only) • High pressure sea water Reverse Osmosis modules • 316 SS fittings and marine grade hose • PLC automatic controls (option) • Pressure gauges and flow meters • Pressure relief valve • IP rated motor • SS high pressure pump

TECHNICAL SPECIFICATIONS Design: Reducing salt level and producing potable water from sea water Recovery: 20 – 45% Inlet pressure: Minimum 2 bar for desalinators without feed pump Operating pressure: 50 – 65 bar depending on TDS of seawater Max operating temperature: 20 – 45% Membrane type: Sea water element (SWRO) Membrane size: 2.5" (D) X 21" or 40" (L) pH range: 2 – 11 Max feed SDI: 5 Max operating pressure: 69 bar Max free chlorine concentration: <0.1 ppm

SYSTEM INCLUSIONS • Fresh water flushing (Yachty only) • Sediment cartridge filter • Feed water pressure gauge • Low pressure switch • High pressure pump • High pressure FRP pressure vessel • Recovery adjustment stainless steel 316 needle valve • High pressure housing connection • High pressure switch (not in Basic model) • PLC control system or contactor relay (Basic) • Multimedia filter (optional) • Antiscalant dosing (optional) • Permeate sample point • Conductivity analyser (Yachty only) • Three way dumping (Yachty only)

52


BASIC AND YACHTY MODULAR SERIES SIZES AND SPECIFICATIONS Basic Series Modular

Length (mm)

Height (mm)

Depth (mm)

Inlet/Outlet (mm)

Waste (mm)

Electrical Power (mm)

Flow Rate

DZRO-BA 25S-M

800

400

115

13

13

240VDC/50 Hz

30 l/hr

DZRO-BA40S-M

1100

400

115

13

13

240VDC/50 Hz

60 l/hr

DZRO-YA40S-M

1300

570

550

25/10

13

240VDC/50 Hz

60 l/hr

DZRO-YA40D-M

1300

570

550

25/10

13

240VDC/50 Hz

110 l/hr

DZRO-YA40T-M

1300

570

550

25/10

13

240VDC/50 Hz

160 l/hr

DZRO-YA40Q-M

1300

570

550

25/10

13

240VDC/50 Hz

210 l/hr

Yachty Series Modular

YACHTY COMPACT SERIES SIZES AND SPECIFICATIONS Basic Series Modular

Length (mm)

Height (mm)

Depth (mm)

Inlet/Outlet (mm)

Waste (mm)

Electrical Power (mm)

Flow Rate

DZROYA40S-C

1300

570

550

25/10

13

240VDC/50Hz

60 l/hr

DZRO-YA40D-C

1300

570

550

25/10

13

240VDC/50Hz

110 l/hr

DZRO-YA40T-C

1300

570

550

25/10

13

240VDC/50Hz

160 l/hr

DZRO-YA40Q-C

1300

570

550

25/10

13

240VDC/50Hz

210 l/hr

Note: Larger Systems can be built with ability to produce up to 500,000 litres per day.

53


ELECTRIC SYSTEMS

DEIONISATION

54


INDUSTRIES ELECTRIC SYSTEMS

DEIONISATION IS THE MOST EFFICIENT PROCESS KNOWN FOR REMOVING DISSOLVED SALTS AND MINERALS FROM WATER, THE PROCESS REMOVES THESE IMPURITIES BY ION EXCHANGE. Synthetic ion exchange resin with either hydrogen or hydroxide ions, release their ions in exchange for the positively charged cations or negatively charged anions which may be present in the water supply. An efficient mixed bed deioniser, combining both cation and anion resins, can produce water that approaches the theoretical limits of purity (18.24 megohm-cm resistivity at 25째C). Mixed bed deionisation utilises only one ion exchange tank with cation and anion exchange resin mixed to produce an infinite number of separate ion exchange sites within the single tank. Water quality from a mixed bed system is much higher than separate bed, with 18 megohm-cm possible. In many applications, the mixed bed deionisers are preceded by separate bed deionisation units in order to get large volumes of water from units. In separate bed deionisation, dissolved cations are removed by direction fed water through a bed of cation exchange resins. The water flows through a bed of anion exchange resin to remove the negatively charged fraction of the dissolved solids in the water. Separate bed deionisation can remove more than 99% of the dissolve ions in a water supply, depending on the constituents of the water, regenerant chemical type, and litres used. Product water quality from separate bed deionisation systems is typically within the 1 megohm-cm range, approximately 1 part per million as CaCO3. Continental Water can provide any number of systems to meet your business needs. Our tanks are available in sizes from 7 litres with a flow rate of 3LPM to 100 litres with a flow rate of 100LPM. The larger systems can be also be arranged in parallel to increase flow rates from 200LPM or more. All of our systems are serviced every 90 days and full installation and training is included as part of our Service Deionisation program. 55


ELECTRIC SYSTEMS CASE STUDY

SYDNEY WATER SERVICE DEIONISATION (SDI) IS A KEY PILLAR TO CONTINENTAL WATER’S BUSINESS – IN FACT WE INTRODUCED THE SYSTEM INTO AUSTRALIA 24 YEARS AGO. Sydney Water approached Continental Water 10 years ago with the brief of designing and installing a SDI system to service their water testing laboratories based in North Ryde. On a tour of the Sydney Water Laboratories, it became very apparent that without a reliable system there could be a very significant impact to water testing and water quality across Sydney if problems were not identified due to a laboratory water system failure. The Sydney Water SDI system starts in the top level of the building. Located with air conditioning ducts and computer wiring is their five tank system. Various media

fall below standard, an alarm activates in the laboratories down stairs to alert staff who can then make a call to organise a Service Technician to make a same day call. Charlie Pierce, Laboratory Manager, Analytical Services told us on our tour “the beauty of the system is that back up water is stored in a 2,500 litre tank with a polishing system to maintain Type II water in specific labs. The drinking water schedule is not impacted prior to a service call as we have this back up water until the Service Technician arrives. And trust me, we know when there is a problem with the system as the alarm is loud!”

The beauty of the system is that water is stored in a 2,500 litre tank with a polishing system to maintain Type I water in specific labs. The drinking water schedule is not impacted prior to a service call as we have this back up water ready until the Service Technician arrives. And trust me, we know when there is a problem with the system as the alarm is loud!

are housed in each tank with a specific task. Initially, a five micron filter removes suspended solids; once the water passes through this it then goes to an activated carbon tank which removes chlorine before it goes to a single bed and then into mixed bed media tank containing DI resin which removes the final impurities in the water to generate Type II water. The tanks generate 40,000 litres of water prior to replacement tanks being installed by one of our NSW Service Technicians. However, water quality is tested by an in built monitor after tank five. If water quality should

Charlie Pierce Laboratory Manager, Analytical Services, Sydney Water

The high purity labs are equipped with Siemens Water Polishers so that any requirement of their rigorous and demanding drinking water schedule is met with the combined system from washing equipment to micro testing. The greatest benefit that Charlie was keen to reinforce is that the Service Technicians and Administration Support “are always there within hours of a service call being made” and always have a solution to resolve any production issues so that Sydney Water’s schedule is not impacted.

If you want to know more about Sydney Water and their services visit www.sydneywater.com.au

56


1 1. Water arrives for testing 2. DI â&#x20AC;&#x201C; 5 tank filter system 3. Water Polisher in laboratory 4. Alarm in the laboratory 5. Sydney Water â&#x20AC;&#x201C; equipment washing

2 3

4

5

57


DEIONISATION APPLICATIONS

58

LABORATORIES AND RESEARCH

COSMETIC AND PHARMACEUTICAL

HOSPITALS AND INSTITUTIONS

LAUNDRIES

FOOD PROCESSING PLANTS

ELECTRICAL MANUFACTURING

CAR WASHING

ENGINEERING


FAQ

ELECTRIC SYSTEMS

HOW IS THE MEDIA REGENERATED? All exhausted deionisation resin media is regenerated with a six-stage process including; separation, backwash, chemical regeneration, rinse, mix, and fast rinse. Media backwash removes fines and debris to media bed to maximise capacity. Regeneration chemical quality (hydrochloric acid and sodium hydroxide) is technical grade or better to assure quality regeneration, and minimise any contamination from the regeneration chemicals. Rinse water is processed through regenerated tanks until residual chemical is flushed from the system as confirmed by conductivity measurement. All tanks are thoroughly rinsed to quality specification before leaving the regeneration facility and prior to activation on-site.

HOW DURABLE AND TRANSPORTABLE ARE THE TANKS? The tanks are designed for a maximum working pressure of 860 kPa, hydrostatically tested at 2000 kPa and de-rated for service to 340 kPa. Tanks are made of fibreglass-reinforced polyester with a 2½" threaded top opening. Upper and lower distribution system are of a slot or mesh strainer design to provide even distribution of water throughout the exchange column.

WHAT CONDITIONING MEDIA DO YOU USE? Each tank contains around 6.5 litres of high-capacity, 40:60, strong acid cation to strong base anion mixed bed resin. The media is solid, of uniform particle size and contains no plates, shells, and agglomerates or similar that might interfere with the normal function of the water purification system.

THE SYSTEM? The system is quick and simple. Inlet and outlet ports accept a ½" quick connect inert, double “O” ring sealed adapter. Compression fittings and ferrules suitable for use with ½" or ¾" high-pressure flexible LLDPE tubing are used to interconnect pre filtration, deionisation and post filtration stages and provide for easy replacement and movement of the tanks.

IS THE WATER PRE TREATED AND IF SO HOW? The feedwater supply shall be pressure regulated to a maximum 350 kPa and made available for connection through a ¾" or ½" female thread ball valve. Prior to entering the deionisation resin stages, the feedwater is pre-treated by passage through a disposable nominal 5 micron filter element (blown polypropylene type) for sediment removal. Filtered feedwater is then dechlorinated by passage through a disposable activated carbon filter element or tank. Both filter elements are contained in filter housings rated for a maximum working pressure of 860 kPa and de-rated for routine operation to 350 kPa. Filter housings are interconnected with a ¾" double thread 3.5 litre per minute flow restrictor.

HOW IS POST FILTRATION DONE? Product water exiting the Deionisation system is filtered to a nominal 1 micron using a disposable filter element housed in a standard filter housing.

HOW OFTEN DOES MY SYSTEM NEED TO BE SERVICED? Filter elements are changed every 90 days (maximum) or earlier if blockage occurs.

HOW EASY IS IT TO CONNECT

59


WHY USE A DEIONISATION SYSTEM AND SERVICE? In today’s world of increased environmental awareness and sophistication in manufacturing more demands are made on businesses. A deionisation system allows your business to procure pure water without the significant set up, owning and operating costs associated with a full pure water system. Exhausted DI cylinders are exchanged for fully regenerated ones while the exhausted cylinders are regenerated at our premises. A DI system delivers a quality end water product economically and efficiently.

A DI system removes the headache of worrying about; • Operator Training • No capital cost for cylinders • No labour costs • Less service down time to improve productivity • Lower maintenance costs • No dangerous regeneration chemicals or water on your site • Varying options to suit different water types and needs.

A DEIONISATION SYSTEM DELIVERS A HASSLE FREE, CONSTANT SUPPLY OF PURE WATER. GUARANTEED.

SAME DAY EMERGENCY SERVICE OR NEXT DAY STANDARD SERVICE

AFFORDABLE RENTAL SOLUTION

60

PLANT TANK REGENERATION


DEIONISATION PROCESS FLOW DIAGRAM raw water Ca, Mg Na

C1, S04, C08, S102

anions resin

anion resin

attracts cations & exchanges H + ions to the water

resin attracts anions & exchanges OH- ions to the H + water

two column demineraliser

mixed resin (cation &anion) attracts the ionic carry over & exchanges H + & OH- to the pure water

H+ + OH-= high quality water

H+ ions w/anions

cation vessel

mixed bed resin

ultra high quality water

- minute ionic carry over

anion vessel

two column demineraliser

mixed bed vessel

three column demineraliser

Sourced from INC PDF

cation resin

SDI SERIES SYSTEM INCLUSIONS • Wall mount bracket, dual place • 2 x HS-750-10APR filter housings • 1 x PS-5-10 5µm pre-filter • 1 x CSC-234-10 carbon filter • 1 x MB007 mixed bed DI tank (worker) • 1 x HyLite quality monitor

• 1 x Tran Hylite power supply to suit • 1 MB007 mixed bed DI tank (polisher) • 1 only wall mount bracket, single place • 1 x HS-750-10APR post-filter housing • 1 x PS-1-10 1µm post filter • 1 x WAV520 bench top mount

SDI – SYSTEM DESCRIPTION AND SPECIFICATIONS SEPARATE AND MIXED BED Model

Flow rate

Water Resistivity

Power

Service

Feedwater

SDI MB007

3 LPM

1.0MΩ/cm

240V/10A

90 days

40-60 psi

SDI MB012

4 LPM

1.0MΩ/cm

240V/10A

90 days

40-60 psi

SDI MB015

7.5 LPM

1.0MΩ/cm

240V/10A

90 days

40-60 psi

SDI MB022

11.7 LPM

1.0MΩ/cm

240V/10A

90 days

40-60 psi

SDI MB034

20 LPM

1.0MΩ/cm

240V/10A

90 days

40-60 psi

SDI MB060

30 LPM

1.0MΩ/cm

240V/10A

90 days

40-60 psi

SDI MB100

50 LPM

1.0MΩ/cm

240V/10A

90 days

40-60 psi

Model

Tanks Installations Specs WxDxH (mm)

Pre Filters Installation Specs WxDxH (mm)

Post Filter Installation Specs WxDxH (mm)

SDI MB007

600x300x550

400x180x500

250x180x500

SDI MB012

600x300x550

400x180x500

250x180x500

SDI MB015

650x 210x1400

400x180x500

250x180x500

SDI MB022

620x 210x900

400x180x500

250x180x500

SDI MB034

1034x300x1450

250x180x500

250x180x500

SDI MB060*

1200x350x1800

250x180x500

250x180x500

SDI MB100*

1200x350x1500

400x180x500

250x180x500

• ½" female thread ball valve adjacent to installation site and within 0.5 metre of pre-filter inlet. Inlet feedwater pressure regulator (adjustable) fitted to supply line • Drainage is not required, floor drain and bunding near tank installation is recommended for spillage control.

*Specifications are based on single tank in each combined system not on the entire system.

61


RECLAIM SYSTEMS

62


INDUSTRIES

S

WATER IS PERHAPS OUR MOST PRECIOUS RESOURCE, BUT IT IS ALSO BECOMING INCREASINGLY SCARCE AND COSTLY. Consequently, there has never been so much attention given to the responsible management of our water resources. The requirement to provide an adequate supply of safe, clean drinking water to the worldâ&#x20AC;&#x2122;s ever growing population is recognised globally as one of mankindâ&#x20AC;&#x2122;s greatest challenges. New approaches to water recycling, using technology to harvest alternative water sources, are becoming increasingly vital in the rural and manufacturing industries to save water and costs. Continental Water Systems offer a range of alternatives to support your business in the management of water recycling, harvesting and treatments. 63


RECLAIM SYSTEMS APPLICATIONS

64

GOLF COURSES

MUNICIPAL

STORM WATER DRAINS

IRRIGATION AND AGRICULTURE

VEHICLE WASH

WATER CONSERVATION


RAINWATER HARVESTING

RAINWATER HARVESTING SYSTEM Rainwater harvesting involves the collection, storage and distribution of rainwater from the roof or storm water, which, depending on the type of filtration installed, can be utilised either inside or outside of the building. In commercial situations, rainwater is commonly used for cooling towers, irrigation and ablution facilities. Residential applications are predominantly for rainwater reuse in toilets, laundry and drinking. Due to rainwater having a near neutral pH level, treatment is generally simple and inexpensive.

BENEFITS • SS feed pump • Polypropylene housing for media filtration • S.S. UV disinfection system • UPVC or ABS pipe work and valves • Galvanised skid mounting • PLC control with option of connection to local BMS or GSM dialler • Disinfection dosing or pH control options • Water quality monitoring with alarms and control • Town water by-pass facility • Modular integration • Media filtration (option) • Activated carbon filter (option)

RAINWATER HARVESTING PLANT SIZES Size

Width

Length

Height

Inlet/Outlet

Electrical Power

Product Flow

150 LPM

465mm

1800mm

1208mm

50mm

127W

150 LPM

300 LPM

800mm

1900mm

1208mm

75mm

185W

300 LPM

450 LPM

550mm

2200mm

1208mm

80mm

370W

450 LPM

TECHNICAL SPECIFICATIONS

SYSTEM INCLUSIONS

Design: Removal of suspended solids, bacteria and viruses from rainwater UV Housing Material: Stainless steel and polyethylene Inlet Pressure: <6.8 bar Operating Pressure: 2 – 6.8 bar Operating Temperature: 5 – 45°C Element: Polypropylene bag filter Lamp type: 254 nm wave length UV lamp

• 5 µm polypropylene bag filter • Pressure gauges for inlet and outlet of bag filters • Sample tap after UV unit • Bleeding valve for bag filter • Hot deep galvanised or carbon steel epoxy coated skid • RPZ valve for town water top-up (option) • Feed water pumps (option) • Flow totaliser and transmitter for disinfected water (option)

Pictures are for illustration purposes only Dimensions and capacities are approximate only

65


WASTEWATER REUSE

WASTEWATER REUSE SYSTEM Waste water reuse systems for grey water are typically designed to improve the efficient use of water. The result is reduced costs of water supplied and help to meet environmental management demands of statutory authorities. Once treated, the water can be used for a wide range of applications including wash down facilities for cars, trucks, boats and trains; dust suppression; process water; cooling towers; domestic recycling; irrigation etc. The solution for each application is dependent on the quality of the input water, the quality required for the treated water and the situation of the plant.

TECHNICAL SPECIFICATIONS

BENEFITS • Mono suction lift feed pump • Backwash and recycle pump • Automatic flocculant, caustic and polymer dosing system • Conical clarification hopper • Automatic de-sludging system • Aeration system • UPVC and ABS pipework and valves • Galvanised skid mounting • PLC control with option of connection to local BMS or GSM dialler • Disinfection dosing or pH control options • Bunded chemical storage • Water quality and monitoring with alarms and control (option) • Rainwater and mains bypass facility (option) • Modular integration (option)

Design: Sediment and colloids removal and disinfection Operating Temperature: 5 – 45°C pH range: 6.5 – 9.0

SYSTEM INCLUSIONS • Coagulant dosing unit • Caustic dosing unit • Cone bottom contact tank • Multimedia filter • Filter feed pump • Recycle water transfer pump • Sludge dump solenoid valve • Flocculant dosing unit • Sodium hypochlorite dosing unit • Sludge pump • Backwash pump • Transfer pump • ORP Analyser (optional) • Different Sample Points

SKID SIZE Size

Width

Height

Length

Inlet

Product

Electrical Power

Product Flow

1500-2500L/hr

2500mm

2500mm

3500mm

40mm

40mm

240 VAC Single Phase

1500-2500L/hr

Pictures are for illustration purposes only Dimensions and capacities are approximate only

66


67


WATER OZONE SYSTEMS

OZONE

68


INDUSTRIES WATER OZONE SYSTEMS

OZONE GENERATORS REPRESENT POWERFUL, CHEMICAL FREE DISINFECTING SYSTEMS. OZONE IS A NATURALLY OCCURRING GAS CREATED FROM OXYGEN ATOMS WHEN EXPOSED TO UV LIGHT AND HV CORONA DISCHARGE Ozone is recognised by its distinct smell and was named after the Greek verb ozein (to smell) and is the peculiar odour after lightning storms. Ozone’s odour is sharp, reminiscent of chlorine. Ozone is a triatomic oxygen meaning it has three atoms of oxygen bound together. The third molecule can detach and apply itself to other chemicals or substances. This ability to attach to other substances means the ozone is able to alter these substances. Ozone is more effective and faster acting than chlorine plus it’s environmentally friendly as it’s naturally occurring. It can not be stored. It is generated and used immediately. Advances in electronics and science in the past decade have made it possible for Continental Water to develop and manufacture a range of modern, high performance Ozone Generators for a wide range of applications and industries.

69


CASE STUDY

EASTCOAST FOOD AND BEVERAGE COMPANY COMPANY PROFILE Peats Ridge is located an hour from Sydney on the Central Coast hinterland. It is an area that has long been recognised for production of citrus fruit and vegetables. In more recent year’s spring water has become a thriving industry in the area due to the abundance of spring water fed streams. One family that has been tapping into the areas abundance of natural resources for three generations is the Lentini family. Citrus farmers for 40 years; in 1998 the family started the Eastcoast Food and Beverage Company and today produce juices and spring water for national and international markets. The Lentini family tap into the natural resources around them, from their 22,000 citrus trees and Spring Water from the Kulnura Plateau, to produce some of the finest juices and waters on offer for end users.

INSTALLATION Sam Lentini originally came to Continental Water during the start-up stage of the Eastcoast Food and Beverage business. The brief was simple – how do we keep the spring water pristine and bacteria free just prior to the bottling process. “Given that the water is sourced from an underground plateau we knew that the water would be free from above ground containments such as bacteria, dissolved solids and suspended solids. The challenge was to keep the water’s purity once it was exposed above ground leading up to the bottling process. We knew that as soon as it went into a storage tank bacteria would be the problem” said Peter Croft, Business Development Manager. “Sam and I discussed this at length and I devised a storage tank system which had to be custom built to work in conjunction with the Ozone Generator.” The system produces 100,000 litres per day to meet the current production demands. Essentially water enters the tank from the top and is drawn out of the base of the tank. The ozone distribution system disperses the ozone equally throughout the tank and the dissolved gas rises through the incoming water. This counter current action provides

excellent contact of ozone through the water. An ozone residual monitor continually checks and displays the ozone level within the tank maintaining a constant level at all times. When Sam was asked how his experience with Continental Water was, he told us “Continental Water was very helpful in the start-up stage of Eastcoast Beverages. We didn’t know much about the bottled water business and Peter was very helpful in terms of his time and advice. We designed the system together so we knew the business was getting what it needed.” 15 years on, Sam has had to replace the original Ozone Generator (after 8 years), the current model is still going strong. The system is serviced by one of NSW Service Technicians, Len Schuler, who specialises in the ozone category. Regular services are scheduled and if the system should fail same day service and loan equipment can be organised to minimise production down time. It’s safe to say that today, Eastcoast Beverages are one of the most successful beverage producers in the area and it is reassuring for Continental Water to know that our ozone system continues to meet their growing business needs.

If you want to learn more about the Eastcoast Food and Beverage Company and their range of water and juices visit www.ecfb.com.au.

70


1 1. Bottling line 2. Water bubbling in the storage tank. 3. Ozone Generator

â&#x20AC;&#x153;

Given that the water is sourced from an underground plateau we knew that the water would be free from above ground containments such as bacteria, dissolved solids and suspended solids. The challenge was to keep the waterâ&#x20AC;&#x2122;s purity once it was exposed above ground leading up to the bottling process. We knew that as soon as it went into a storage tank bacteria would be the problem

â&#x20AC;?

Peter Croft, CWS Business Development Manager. 2

3

71


WATER OZONE APPLICATIONS

HOSPITALITY AND COMMERCIAL KITCHENS

FOOD STORAGE AND FOOD AND BEVERAGE PROCESSING

WATER PURIFICATION IN PLACE OF CHEMICALS SUCH AS CHLORINE

ICE MAKING

AIR OZONE APPLICATIONS

WASTE AND GARBAGE HOLDING AREA

FLOOD AND FIRE RESTORATION

BENEFITS • A rapid, effective oxidant water treatment • Hassle free as you don’t worry about handling, transport or dosing • State of the art sanitising and disinfecting qualities • Low maintenance and running costs 72


AIR OZONE SYSTEMS

AIR OZONE SYSTEMS

SERIES 3000 DESIGN The Series 3000 comes in three sizes; • Standard, • Premium • High Flow They are one of the finest grade UV ozone generators on the market, are Australian made and environmentally friendly.

FEATURES • Freshens air • Eliminates odour (cooking, smoking, pets, paint fumes, water damage, decaying matter) • Destroys airborne microbes • Stop mildew growth • Kills pathogens on food • Stainless steel cabinet for easy cleaning • Portable – move it where you need it • 24 hour timer • Analog bus for ozone monitoring and control

TECHNICAL SPECIFICATIONS Code

Description

Series

Air Flow

Output (g/hr)

Concentration by weight

Recommended Room size

Power

AMPS

Specs HxWxD(mm)

Kg

3110C

Single lamp with analog bus

Standard

3m3 /min

Ambient Air

Ambient Air

1.5

0.05

50m3

48W

0.5A

220x 200x360

4.5

3210C

Double lamp with analog bus

Standard

3m3 /min

4.0

0.05

70m3

75W

0.82A

220x 200x360

5.4

3110T

Single lamp with built in timer

Premium

3m3 /min

1.5

0.05

50m3

50W

0.5A

220x 200x360

5.2

3210T

Double lamp with built in timer

Premium

3m3 /min

4.0

0.05

70m3

80W

0.82A

220x 200x360

6.2

3610

High flow, high output double lamp

High Flow

6.57m3/min

2.7

0.05

150m3

125W

1A

220x 200x550

7

73


AIR OZONE SYSTEMS

2400 DESIGN A compact wall mounted system that kills bacteria which carries diseases and causes odours. It is environmentally friendly as no chemicals are used or stored; ideal for public bathrooms.

FEATURES • Freshens air • Eliminates odour (cooking, smoking, pets, paint fumes, water damage, decaying matter) • Destroys airborne microbes • Stop mildew growth • Kills pathogens on food • Stainless steel cabinet for easy cleaning • Portable – move it where you need it • 24 hour timer • Analog bus for ozone monitoring and control

TECHNICAL SPECIFICATIONS

74

Code

Description

Series

Air Flow

Output (g/hr)

AMPS

Specs HxWxD (mm)

Weight

2400

Carona Discharge Ozone Generator 300mg/hrs

Standard

1.1m3 /min

0.3

0.45

340x160x120

1kg


75


76


WATER OZONE SYSTEMS

FILTRATION & OZONE DISINFECTION PLANTS DESIGN Removal of suspended solids and ozone disinfection Capacity: 150, 300 and 450LMP (higher flow rates are available) Ozone Injection Rate: Ozone injection rate will be calculated on water condition Operating Pressure (KPa): 200 – 650 Operating Temperature: 0 – 38°C Bag Material: Polypropylene restrainer bag Bag Dimensions: 6" (D) X 20" (L) Micron Rating; 1 – 5µm UV Housing Material: Stainless steel and polyethylene

PLANT FEATURES • Polypropylene bag filter housing • Galvanised skid mounting • UPVC or ABS pipe work and valves • Pressure gauges for maintenance prompting • Ozone generator • Automatic ozone monitoring and injection • Option for modular integration

FILTRATION/OZONE SKID Size

Width

Height

Length

Inlet/ Outlet

1

1m

2

1.25m

3

1.8m

Product Flow

2m

2m

50mm

150 LPM

2m

2.2m

75mm

300 LPM

2m

2.3m

80mm

450 LPM

SYSTEM INCLUSIONS: • 5µm polypropylene bag filter • Pressure gauges for inlet and outlet of bag filters • Bleeding valve for bag filter • Corona discharge ozone generator • Oxygen concentrator • Ozone injection assembly • Pressure gauges for injection assembly • Ozone contact chamber FRP or stainless steel • ORP (oxygen reduction potential) monitor (option) • Ozone concentration monitor (option) • Ozone catalytic destructor (option) • Water trap for holding tank air vent and ozone destructor (option) • Sensors housing and connection loop (option) • Compact series mounted on a frame

77


WATER OZONE SYSTEMS

OS 340 OXYGEN GENERATORS DESIGN

Oxygen Generators deliver a constant flow of pure oxygen of up to 95% making it ideal for medical and industrial applications.

FEATURES • A rapid start up to deliver maximum purity fast • Low maintenance and economical running costs • 95% pure oxygen at -73% dewpoint, available on demand • On site generators that separate oxygen from other atmospheric gases • Separation achieved with an inert ceramic molecular sieve within two operating chambers • A regenerative, reliable and virtually maintenance free process • Oxygen pressure can be adjusted to meet specific applications

TECHNICAL SPECIFICATIONS Oxygen Output

15 SCFH @ 9.0 psi 0.40 Nm3 /hr @ 62.1 Pa ( 0.62 bar)

Dewpoint

-51°C

Oxygen Purity

90 %+/-5% (depending on flow rate)

Sound Levels

62 dba @ 1 meter, open field conditions (with enclosure)

Dimensions (wdh)

44x 26x76cm

Weight

33kg

Power Requirements

220 VAC Model: 220 VAC, 50/60 Hz, Single Phase, 2.0 amp

IBC Water Ozone Disinfection Plant

Pictures are for illustration purposes only Dimensions and capacities are approximate only

78


WATER OZONE SYSTEMS

SERIES CD2000 & CD4000 DESIGN The Series CD2000 and CD4000 systems have been designed with efficiency in mind.

FEATURES

• Stainless Steel electrodes, glass tube and dielectrics to minimise moisture damage • Air cooled generators with a manually adjusted power output improves energy efficiency • A front panel makes it easy to view air flow suction • Internal cooling fans keep corona discharge cells at optimum levels to maximise ozone output • Materials in contact with the ozone gas are inert reducing maintenance needs • Easy installation as vertically mounted – installed with a suitable gas feed supply • No water cooling connections, 240 V 5V connections required (Can be used as an option to oxygen generators or air dryers.) • No external compressed air supply or bottled gas is needed • Australian made components readily available to provide a long in-service operation life

TECHNICAL SPECIFICATIONS Model

Description

Weight

Dimensions (mm)

Power

Feed gas inlet

Ozone outlet connection

Output on dry air

CD2000

Ozone Generator single corona cell with two cooling fans

15kg

300x160x500 (wdh)

220-240VAC, 200W

¼ inch BSP female thread

¼ inch BSP male thread

0.6 gph

CD4000

Ozone Generator four corona cells with multiple cooling fans

22kg

440x 250x680 (wdh)

220-240VAC, 350W

¼ inch BSP female thread

¼ inch BSP male thread

4 gph

79


WATER OZONE SYSTEMS

APU 1200 AUTOMATIC AIR PREPARATION UNIT DESIGN Automatic Air Preparation Units remove solid particles from the air such as dust and pollen as well as moisture to remove unwanted by-products.

FEATURES • A two chamber, heat regenerative, automatic desiccant air drier designed to supply dried air to our corona discharge Ozone Generators • Removes moisture from feed air supply to prevent the formation of unwanted by-products • Extends the life of system components • Helps to minimise pH changes in the treated water • Lower and upper chambers activated by a three way output solenoid valve

TECHNICAL SPECIFICATIONS

80

Dewpoint

-60°C dewpoint (according to prevailing atmospheric conditions)

Power

240 VAC, 50HzAC AC Only, 60W

Airflow

20 litres per minute (maximum)

Regeneration

Automatic with timer controlled integral heater

Desiccant

Activated Alumina

Dimensions (wdh)

33x12x32cm

Weight

5.5kg


WATER OZONE SYSTEMS

MIC 978 & MIC 1584 VENTURI INJECTORS DESIGN Venturi Injectors are designed for maximum performance and efficient transfer to mix gases with liquids or liquids with liquids. Continental Water Systems stocks Mazzei Injectors which are of a premium quality.

FEATURES • Operate over a wide range of pressures requiring minimal pressure differential between inlet and outlet sides to initiate vacuum for suction • Significant cost savings in comparison with other injection methods • Single unit construction for trouble free operation with no moving parts • Can be run dry • Solid Polypropylene PVDF or Stainless Steel construction for longevity and durability • Flow ranges from 2 to 500 LPM

81


FILTRATI

ULTRAVIOL DISINFECTI

82


MEMBRANE INDUSTRIES TECHNOLOGY

ION

LET ION

ULTRAVIOLET DISINFECTION IS THE KILLING OF MICROORGANISMS, RANGING FROM BACTERIA AND VIRUSES TO ALGAE AND PROTOZOA. One advantage of UV treatment is that it is a faster method of disinfecting water than chlorine and does away with the need for cumbersome tanks and harmful chemicals. UV treatment systems are also extremely cost efficient! People often wonder how light can kill bacteria. Ultraviolet technology has been around for 50 years, and its effectiveness has been proven scientifically and commercially. It is natureâ&#x20AC;&#x2122;s own purification method. Ultraviolet disinfection is increasing in popularity due to consumer concerns about chlorine and other chemical contamination of drinking water. It is suitable for small residential applications and large commercial projects. 83


MEMBRANE TECHNOLOGY

84


ULTRA FILTRATION/ ULTRAVIOLET APPLICATIONS

DRINKING WATER TREATMENT

COMMERICAL POOLS AND SPAS

FOOD AND BEVERAGE MANUFACTURING

TANK WATER TREATMENT

COOLING TOWERS

AGRICULTURE

MEDICAL AND LABORATORIES

LARGE AQUARIUMS 85


DISINFECTION

FILTRATION/ ULTRAVIOLET DISINFECTION DESIGN Ultra Violet disinfection is an environmentally friendly way of disinfection, leaving no harmful by-products, while the system itself is easy to maintain and economical to operate.

FEATURES • UV is effective against most micro-organisms • Treats full re-circulating flow • Can reduce the amount of chlorine when using UV • Environmentally friendly, no dangerous chemicals to handle or store, no problems of overdosing. • Universally accepted disinfection system for potable and non-potable water systems • Low initial capital cost as well as reduced operating expenses when compared with similar technologies • Immediate treatment process, no need for holding tanks, long retention times, etc • Extremely economical • Low power consumption • No removal of beneficial minerals • No change in taste, odor, pH nor the general chemistry of the water • More effective against viruses than chlorine • Compatible with all other water processes (i.e., RO, filtration, ion exchange, etc.)

TECHNICAL SPECIFICATIONS

• Galvanised skid mounting • UPVC of ABS pipe work and valves • 316 S/S UV system with alarm • Pressure gauges for maintenance prompting • Option for modular integration

Design: Removal of suspended solids and UV disinfections Capacity: 150,300 and 450 LPM (higher flow rates are available) Operating Pressure: 200 – 650 kPa Operating Temperature: 0 – 38°C Bag Material: Polypropylene restrainer bag Bag Dimensions: 6" (D) x 20" (L) Micron Rating: 1.5 µm Lamp Type: 254 nm wave length UV lamp UV Housing Material: Stainless steel and polyethylene

SYSTEM INCLUSIONS

FILTRATION/UV SKID SIZES

POLYPROPYLENE BAG FILTER HOUSING

• 5µm polypropylene • Pressure gauges for inlet and outlet of bag filters • Sample tap after UV unit • Bleeding valve for bag filter • Hot deep galvanised or carbon steel epoxy coated skid

Size

Width

Length

Height

Inlet/ Outlet

Product Flow

150 LPM

1465mm

800mm

1207mm

50mm

150 LPM

300 LPM

1800mm

900mm

1298mm

75mm

300 LPM

450 LPM

1550mm

1200mm

1032mm

80mm

450 LPM

*Higher flow rates are available upon request

Pictures are for illustration purposes only Dimensions and capacities are approximate only

86


DISINFECTION

FILTRATION/ CHLORINATION PLANT DESIGN Chlorination is the adding of chlorine to water in order to purify it and make it fit for human consumption. Treating water with chlorine prevents the spread of waterborne disease. Chlorination is also used to sanitise swimming pool water and during disinfection stage in sewage treatment. Our systems use sodium hypochlorite, which releases free chlorine when dissolved in water which allows the water to stay in storage to complete the disinfection process to complete.

TECHNICAL SPECIFICATIONS Design: Removal of suspended solids and bacteria and disinfection Capacity: 150,300 and 450 LPM (higher flow rates are available) Operating Pressure: < 650 KPa Operating Temperature: 0 – 100°C Bag Dimensions: 6" (D) x 20" (L) Dosing Pump Flow Rate: Depends on dosing rate and chemical strength Dosing Pump Head Material: PPE, NPD, PVDF, PVC

SYSTEM INCLUSIONS • Bag filters isolation valves • Bag filters inlet/outlet pressure gauges • Inlet/outlet sample points • Carbon steel epoxy coated or hot deep galvanised skid for bag filters • Injection point assembly • pH, Chlorine, ORP analyser and sensor (option) • Bleeding valve for bag filter • Inline static mixer (option) • Loop for analyser and pressure reduction valve (option) • Chemical bund with drain • Refill line for dosing tank (option)

FILTRATION/CHLORINE SKID Size

Width

Length

Height

Inlet/Outlet

Product Flow

Dosing Tank

1

0.8m

1.6m

1.65m

5cm

150 LPM

250L

2

0.9m

1.8m

1.65m

7.5cm

300 LPM

250L

3

0.9m

2.1m

1.65m

8cm

450 LPM

250L

Higher flow rates are available on request Chemical Dosing unit will be changed according to dosing rate and flow rate required

87


WATER POLISHE

88


INDUSTRIES WATER POLISHERS

ERS WATER IS THE MOST COMMON REAGENT UTILISED IN LABORATORIES, HEALTH CARE, CUTTING EDGE TECHNOLOGY AND PHARMACEUTICAL MANUFACTURING. IT IS IMPERATIVE THAT PURE AND ULTRA-PURE WATER SOLUTIONS ARE RELIABLE, CONSISTENT AND DEPENDABLE. Continental Water Systems supply high purity point of use polishers systems deliver Type I, II or III water quality. These systems are designed to treat water from an already purified source (Reverse Osmosis, Deionisation or Distilled) or can be used directly on municipal tap water. We are an Australian leader in the supply and service of pure and ultrapure water systems. We have a fully functional service department on the Eastern Seaboard. This means your systems are regularly maintained to avoid time lost in repairs and degrading water quality. Plus if your system should fail, our service team are a phone call away to service your system. We are proud of our laboratory, medical and manufacturing capabilities and know we can supply a solution that works for you. 89


WATER POLISHERS CASE STUDY

ROYAL BRISBANE HOSPITAL It is not every day that you get a brief to install a comprehensive water system in a hospital laboratory network encompassing four floors, 500 employees and applications from equipment washing to Microbiology and Biochemistry. Teamed with a back up system, testing system, water storage facility and Type I, II and III production abilities as well as a regular service schedule. The service schedule is managed by hospital trade employees, contractors and the Continental Water Service Technicians. Continental Water received this brief from Royal Brisbane Hospital six years ago and designed, installed and now service what is one of the most cutting edge Pure Water combined water systems in the country. Shane Armitage, Support Services Manager for Pathology Queensland explained how the system functions on a business as usual level, as well as the various

agreed that a Kinetico non-electric system would be beneficial as it operates on water pressure not electricity saving power costs in the long term. Plus it can keep operating should there be a power outage or natural disaster, such as the Brisbane floods a few years ago. Shane explained the rigorous testing the water under goes each day. “We test the water every day for resistivity, monthly for bacteria and have the systems serviced twice a year by the Continental Water Service Technicians to make sure all the mechanical and hard ware equipment is functioning. The beauty of the system is that it allows us to always shut down one system and switch it over if we notice our water restivity has hit 10 megohm or there is an emergency. As a further safety measure should both System A and B fail portable DI tanks are available which

Essentially the system is designed to produce and store 10,000 litres of Type II water per day. It is a duplicated system (System A and System B) so that if one system should fail or is due for a service the second system can take over to meet the needs of the hospital laboratories.

support systems to ensure that the 24/7 operation of the laboratories are not impacted should a system fail. “Essentially the system is designed to produce and store 10,000 litres of Type II water per day. It is a duplicated system (System A and System B) so that if one system should fail or is due for a service, the second system can take over to meet the needs of the hospital laboratories”. Each system has a Kinetico filter, softener and carbon system, followed by a Reverse Osmosis system. The water is then pumped to the laboratories via Ion Exchange polishers, ultraviolet treatment and 0.2 micron filters. The system also includes a 2,000 litre storage tank with a ultraviolet and Ozone combined system attached to it so that the water purity is maintained whilst in storage. Given the high volumes of water in production it was 90

Shane Armitage Support Services Manager, Pathology Queensland

can be attached to a tap to deliver Type II water for 48 hours. We also have a 90 day SDI service contract in place with Continental Water. However if a systems SDI tanks needs replacing we just call the guys and they switch over the SDI tanks within a few hours of the call”. Shane did point out that the SDI system and related 90 day service program is highly effective as the water quality from the SDI system is such that the RO system does not have to work as hard which has meant the membranes life has been extended well beyond the normal two years. When asked if he was happy with the system, Shane highlighted “I’m told that our water system is state of the art by visitors to the laboratories. We have more than enough quality water to meet the demands of the laboratories and all their pure water needs.”


1. TL 400 Reverse Osmosis systems (Duty/Standby) 2. Ozone system for disinfection 3. Purified water storage 4. System View 5. Service Deionisation polishing 6. Feed water break tank and pump 7. Dual pretreated system (Duty/standby)

1

2

3

4

5

6

7

91


WATER POLISHER APPLICATIONS

92

ULTRAPURE DEIONISED VERSIONS

LABOSTAR ULTRAPURE ULTRA VIOLET VERSIONS

• General analysis • Standard buffer • AAS, CG, IC, ICP • Cell and tissue culture • Pyrogen sensitve applications

• Micro and molecular biology • PCR • HPLC • TOC analysis • Type III water

LABOSTAR TWF ULTRAPURE

LABOSTAR TWF UV ULTRAPURE

• General analysis • Standard buffer • AAS • GC • IC • ICP • Cell and tissue culture • Pyrogen sensitive applications • Type III water

• Micro and molecular biology • PCR • HPLC • TOC analysis • Type III water


WATER POLISHERS

LABOSTAR ULTRAPURE WATER SYSTEM DESIGN The LABOSTAR Ultrapure Water System is a quality, compact system which can easily be installed on a laboratory bench or mounted on a wall. It is fed with either, deionised water, distilled water or permeate from a reverse osmosis unit. Delivering analytical grade water. There are a range of models available for different applications including the Labostar TWF (Tap Water Feed) systems which can be connected directly to a mains water supply. The LABOSTAR Ultrapure Water System has an array of add-ons and options to meet specific needs and applications.

FEATURES • Cost efficient • Ultrapure water circulation right into the dispenser head • An easy to use water dispenser • Quiet operation • Rapid and simple disinfection • Consistent water testing with a resistivity monitor • Pressure reducer included in type 1 and 2 water systems • Simple

LaboStar bench-top system

LABOSTAR ULTRAPURE TECHNICAL SPECIFICATIONS WATER SPECIFICATIONS LABOSTAR System Model

DI 2

UV 2

DI 4

UV 4

Output*

L/min

1.5

1.5

1.5

1.5

Conductivity at 25°C

µS/cm

0.055

0.055

0.055

0.055

Resistivity at 25°C

MΩ-cm

18.2

18.2

18.2

18.2

TOC

ppb

5-10

1-5

5-10

1-5

Bacteria

cfu/ml

<1

<1

<1

<1

Endotoxins with use of filter

EU/ml

< 0.001

< 0.001

< 0.001

< 0.001

Particles > 0.2µm

Per ml

<1

<1

<1

<1

*Gravity feed 1.2L/min

LABOSTAR ULTRAPURE FEEDWATER SPECIFICATIONS LABOSTAR System Model

DI 2

UV 2

DI 4

UV 4

Feed water pressure

Bar

1.5

1.5

1.5

1.5

Feed conductivity

µS/cm

<20

<20

<20

<20

TOC

Ppb

<50

<50

<50

<50

Silica

Ppm

2

2

2

2

Temperature

°C

5-35

5-35

5-35

5-35

Power supply

V/Hz

100-240/50-60

100-240/50-60

100-240/50-60

100-240/50-60

Dimensions HxWxD

mm

535/290/320

535/290/320

535/290/400

535/290/400

Catalogue number

2206

2207

2216

2217

Catalogue number for wall mounting

2206-W

2207-W

2216-W

2217-W

93


WATER POLISHERS

LABOSTAR 4 ULTRAPURE WATER SYSTEMS DESIGN The Labostar 4 Ultrapure System has the same benefits as other LABOSTAR Ultrapure Water Systems but also includes an integrated tank which can be directly filled with, deionised water, distilled water or permeate from a reverse osmosis storage unit.

FEATURES • 7 litre tank • Suitable for mobile use • Ultrapure water is ready for use within minutes of filling the tank • Systems can be used at different locations

LaboStar 7lt integrated tank

INCLUSIONS Item

Catalogue Number

Change Frequency

DI-module*

2160

6 – 12 months

UV replacement bulb**

2068

6 months 6 – 12 months

Polishing module – HP1 for low inorganic apps

2172

6 – 12 months

– HP2 for low organic apps

2173

6 – 12 months

Sterile filter (pack of 3 )

6 months

– 0.2 micron charged filter

2097

– 0.2 micron uncharged filter

2064-3

6 months

Disinfection kit (pack of 3 )

2055

Change frequency times are based on average figures and can vary. *Labostar DI 2 & DI 4 systems ** UV versions

94

LaboStar wall mounted system


WATER POLISHERS

LABOSTAR TWF ULTRAPURE WATER SYSTEM FEATURES

DESIGN From tap to ultrapure water, the LABOSTAR TWF system is the simple solution to deliver quality ultrapure water. The system includes a pre-filtration unit and a reverse osmosis membrane in a single compact module. Type III water collects in an integrated tank and is finally passed through the polishing unit by a circulation pump prior to use, while Type I water is collected directly from the dispenser.

• Connection to municipal drinking water supply • 7 litre tank • Ultrapure water circulation directly to dispenser head • Water easy to dispense • Quiet operation • Fast and simple disinfection • Resistivity monitoring of pre treatment unit and ultrapure water • Simple part replacement • Protective jacket at the end of the sterile filter • Can extract type I and III water

LABOSTAR TWF ULTRAPURE WATER SPECIFICATIONS LABOSTAR System Model

UV

1.2

1.2

25°C

9

9

20°C

8

8

15°C

7

7

Output

l/min

Permeate at

Conductivity at 25°C

µS/cm

0.055

0.055

Resistivity at 25°C

MΩ-cm

18.2

18.2

TOC

ppb

5 – 10

1–5

Bacteria

cfu/ml

<1

<1

Endotoxins with use of filter

EU/ml

<0.001

<0.001

Particles >0.2µm

per ml

<1

<1

UV

Conductivity of input water is reduced by 98%.

FEED WATER SPECIFICATIONS LABOSTAR System Model Feed water pressure

Bar

0.1 – 5

0.1 – 5

Feed conductivity

µS/cm

<1400

<1400

Temperature

°C

5 – 35

5 – 35

Power supply

V/Hz

100-240/50-60

100-240/50-60

Dimensions: H/W/D

mm

535/290/400

535/290/400

Shipping weight

kg

24

25

Catalogue number

2231

2232

Catalogue number for wall mounting

2231-W

2232-W

INCLUSIONS FOR ALL LABOSTARE SYSTEMS Item

Catalogue Number

Change Frequency

Pre-treatment/RO module 7 L/h

2111

6 – 12 months

UV replacement bulb*

2068

12 months

Polishing module – HP1 for low inorganic application

2172

– HP2 for low organic application

2173

6 – 12 months

Sterile filter (pack of 3 ) – 0.2 micron charged filter

2097

6 months

2064-3

6 months

– 0.2 micron uncharged filter Disinfection kit (pack of 3)

2055

Change frequency times are based on average figures and can vary. * UV versions

95


PURE PURITY–ULTRA CLEAR SYSTEM APPLICATIONS

ULTRA CLEAR/INTEGRA AND ULTRA CLEAR TWF • AAS • routine analysis • standard buffer • GC

ULTRA CLEAR/INTEGRA UF • Cell and tissue culture • monoclonal antibody production • IVF • pyrogen sensitive applications

96

ULTRA CLEAR/INTEGRA UV AND UV TM AND ULTRA CLEAR TWF UF AND UV TM • HPLC • IC • GC • GC/MS • TOC analysis • ICP and ICP/MS

ULTRA CLEAR/INTEGRA UV UF AND UV UF TM • DNA sequencing • RNase and DNase-free • DNA-free • PCR • IVF • 2- D – electrophoresis • critical cell and tissue culture • pyrogen sensitive applications


WATER POLISHERS

PURE PURITY – ULTRA CLEAR SYSTEMS The Pure Purity Ultra Clear Systems are TOC monitoring units with optional UV-radiation intensity measurement. They are designed for maximising space savings in under-bench installations. Each Ultra Clear system is equipped with state of the art purification technology as well as cost saving applications such as a single UV lamp operation. These systems deliver quality water with attributes that far exceed all reagent water standards including: ASTM Type I, CLSI and ISO 3696 Type I.

FEATURES OF ULTRA CLEAR WATER SYSTEM • Compact under bench units • Deionisation module • Resistivity meter to measure pretreated water • Polishing module • 0.1µm sterile filter in the recirculation loop • Can produce purified water with endotoxin levels of <0.001 EU/ml • Dispense rate of 2LPM of ultrapure water • Fast and simple cartridge exchange • UV lamp continuously monitored to measure declining radiation • A flexible hose dispenser in various sizes to suit all applications • A built in self cleaning system

Ultra Clear System for laboratory bench

Ultra Clear System Integra system is a space saving alternative for under-bench systems

PURE PURITY ULTRA CLEAR SYSTEM FEED WATER SPECIFICATIONS Ultra Clear System Model

-

-

UV

UF

UV UF

UV TM

UV UF TM

Feed water pressure

Bar

0.1-5

0.1-5

0.1-5

0.1-5

0.1-5

0.1-5

Feed conductivity

µS/cm

<20

<20

<20

<20

<20

<20

TOC

Ppb

<50

<50

<50

<50

<50

<50

Power supply

V/Hz

100-240/50-60

100-240/50-60

100-240/50-60

100-240/50-60

100-240/50-60

Dimensions HxWxD

mm

530/340/320

530/340/320

530/340/320

530/340/320

530/340/320

530/340/320

2001

2002

2003

2004

2002-TM

2004-TM

2008

2006-TM

2008-TM

Catalogue number Catalogue number for wall mounting

2006

97


WATER POLISHERS

DIRECT PURITY – ULTRA CLEAR TWF SYSTEMS FEATURES OF ULTRA CLEAR TWF SYSTEM • Produces reagent water from municipal water • Built in Reverse Osmosis system with a >30% recovery rate to conserve water • The deionisation module polishes the Reverse Osmosis water prior to delivery to storage tank • A disperse rate of 1.8 l/min • TOC level of <1ppb • Options include ultrafiltration, UV-oxidization and TOC monitoring • Designed as a single unit to economically produce purified and ultrapure water • Auto flushing system • Can be wall or bench mounted

TECHNICAL SPECIFICATIONS ULTRA CLEAR TWF SPECIFICATIONS Ultra Clear Model*

UV

UF

UV UF

UV TM

UV UF TM

Output up to **

L/min

2

2

2

2

2

2

Conductivity at 25°C

µS/cm

0.055

0.055

0.055

0.055

0.055

0.055

Resistivity at 25°C

MΩ-cm

18.2

18.2

18.2

18.2

18.2

18.2

TOC

ppb

5 – 10

<1

5 – 10

<1

<1

<1

DNase, RNase, DNA

Free

Free

Bacteria

cfu/ml

<1

<1

<1

<1

<1

<1

Endotoxins

EU/ml

<0.001

<0.001

<0.001

Particles >0.1µm

Per ml

<1

<1

<1

<1

<1

<1

* The technical specifications are the same for all Ultra Clear systems with the exception of the Integra model which is slightly smaller ** Gravity feed 1.5 l/min

DIRECT PURITY ULTRA CLEAR TWF SYSTEM FEED WATER SPECIFICATIONS Ultra Clear TWF System Model

UV

UF

UV UF

UV TM

UV UF TM

Feed water pressure

Bar

0.1-5

0.1-5

0.1-5

0.1-5

0.1-5

0.1-5

Feed conductivity

µS/cm

<2000

<2000

<2000

<2000

<2000

<2000

<3

<3

<3

<3

<3

<3

Colloid index SDI Free Chlorine

Mg/l

<0.5

<0.5

<0.5

<0.5

<0.5

<0.5

Fe

Mg/l

<0.1

<0.1

<0.1

<0.1

<0.1

<0.1

Power supply

V/Hz

100-240/50-60

100-240/50-60

100-240/50-60

100-240/50-60

100-240/50-60

Dimensions HxWxD

mm

530/560/320 30 l tank

530/900/320 60 l tank

1340/340/580 80 l tank

Catalogue number for 30 l tank

2001-D

2002-D

2003-D

2004-D

2002-TM-D

2004-TM-D

Catalogue number for 60 l tank

2001-D /60

2002-D/ 60

2003-D/ 60

2004-D /60

2002-TM-D /60

2004-TM-D/60

Catalogue number for 80 l tank*

2001-D /80

2002-D /80

2003-D /80

2004-D /80

2002-TM-D /80

2004-TM-D /80

*Upon request

98


INCLUSIONS FOR ALL ULTRA CLEAR SYSTEMS Item

Catalogue Number

Change frequency

Pretreatment module AMB

2057

6 – 12 months

Deionisation module VMD

2050

6 – 12 months

Pre-treatment module DTO for apps that need a low TOC

2094

6 – 12 months

Polishing module MF III D for apps in the low TOC range

2051

6 – 12 months

Polishing module ILT for inorganic apps

2092

6 – 12 months

Sterile Filter 0.1µm, 1000cm

2052

6 months

2055

2

Disinfection pack (set of 3 ) UV replacement bulb Systems without TM

2068

Systems with TM

2069

12 months

RO replacement module

2083

2 – 3 years

Co2 Trap CT1, replacement cartridge

3502

12 months

V Submersible replacement bulb UV-SL 1

2595-1

12 months

UF Membrane Preventer 5000

2058

18 – 36 months

Change frequency times are based on average figures and can vary.

99


ELECTRIC SYSTEMS


ELECTRIC SYSTEMS

NSW Unit 2/5 Anvil Road Seven Hills NSW 2147 P: 02 8814 2800 F: 02 9838 7030

VIC 12 Conquest Way Hallam VIC 3803 P: 03 8794 3800 F: 03 9702 3941

QLD 18 Dividend Street Mansfield QLD 4122 P: 07 3434 1100 F: 07 3219 2266

www.continentalwater.com.au

1300 166 253 sales@continentalwater.com.au

Incorporating IBC Water

101

Specifier Kit 2013