A comprehensive guide to all our commerciall and industrial water applications. From mining and manufacturing to health and research we have a pure water solution for you.
Water specifier kit - Continental Water Systems - Australia
1. 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
2. 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
CONTENTS
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
3. 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.
WELCOME
• 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
CONTINENTAL WATER SYSTEMS INCORPORATING
IBC WATER HAVE BEEN MANUFACTURING,
BUILDING AND SERVICING WATER FILTRATION
SYSTEMS FOR OVER 100 YEARS.
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.
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.
WORKING WITH OUR
PARTNERS
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.
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.
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.
• 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
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,
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.
John Winstanley
Managing Director
4
Since 1888 Continental Water, incorporating IBC Water,
have been at the forefront of delivering pure water
solutions and service to;
CONTENTS
5
4. OUR PRODUCTS –
YOUR INDUSTRY
DEIONISATION
FILTRATION, REVERSE OSMOSIS
& MEMBRANE SYSTEMS ALL INDUSTRIES
OZONE GENERATORS
WATER SOFTENERS
6
RECLAIM SYSTEMS
UV ULTRAVIOLET
WATER POLISHERS
ALL INDUSTRIES
CONTENTS
7
5. INDUSTRIES
WATER
FILTRATION
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.
8
CONTENTS
9
6. 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.
“
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.
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.
”
2
3
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
10
1
4
1. Sibelco Concentrator Vessel
2. Quartz Sand Mine
3. Water Treatment Plant
4. A CWS Service Technician visits the plant
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
CONTENTS
11
7. 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.
WHICH FILTER
SYSTEM IS BEST
FOR YOU?
12
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
CONTENTS
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
8. TANK MEDIA
WHICH IS BEST FOR YOUR APPLICATION?
6. NEXTSAND
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.
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.
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
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
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.
14
pH range of 5.8 up to 8.6, and also achieves efficient
filtration under high operating temperatures up to a
maximum of 45˚C.
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.
3 4
TANK CONFIGURATIONS
SIMPLEX (SINGLE)
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.
5 6
TRIPLEX (TRIPLE)
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.
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
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.
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.
CONTENTS
15
9. SPECIFICATIONS
SPECIFICATIONS
ELECTRIC SYSTEMS
ELECTRIC
SYSTEMS
CARBON
FILTERS
OUR RANGE OF ELECTRIC CONFIGURATIONS
ARE BUILT TO YOUR SPECIFIC REQUIREMENTS.
• 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
FEATURES
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
16
CONTENTS
Pictures are for illustration purposes only
Dimensions and capacities are approximate only
17
10. ELECTRIC SYSTEMS
ELECTRIC SYSTEMS
CALCITE
FILTERS
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
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
1
CALCITE FILTER SIZES
Size
Width
1
Width
Height
Inlet/Outlet
Waste
Weight
Product Flow
16"
65"
50mm
40mm
226kg
80 LPM
Height
Inlet/Outlet
Waste
Weight
Product Flow
2
21"
62"
50mm
40mm
320kg
120 LPM
16"
65"
50mm
40mm
250kg
30 LPM
3
24"
71"
50mm
40mm
500kg
180 LPM
2
21"
62"
50mm
40mm
350kg
52 LPM
4
30"
72"
50mm
40mm
867kg
305 LPM
3
24"
71"
50mm
40mm
470kg
70 LPM
5
36" Aquamatic
72"
65mm
50mm
1150kg
400 LPM
4
30"
72"
50mm
40mm
670kg
109 LPM
6
36" Pneumatic
72"
80mm
80mm
1150kg
400 LPM
5
36" Aquamatic
72"
50mm
40mm
1100kg
156 LPM
7
36" Electrical Actuated
72"
80mm
80mm
1150kg
400 LPM
6
36" Pneumatic
72"
80mm
80mm
1100kg
156 LPM
8
42" Aquamatic
72"
80mm
80mm
1400kg
539 LPM
7
36" Electrical Actuated
72"
80mm
80mm
1100kg
156 LPM
9
42" Pneumatic
72"
80mm
80mm
1400kg
539 LPM
8
42" Aquamatic
72"
80mm
80mm
1600kg
212 LPM
10
42" Electrical Actuated
72"
80mm
80mm
1400kg
539 LPM
48" Aquamatic
72"
100mm
80mm
1900kg
704 LPM
9
42" Pneumatic
72"
80mm
80mm
1700kg
212 LPM
11
10
42" Electrical Actuated
72"
80mm
80mm
1700kg
212 LPM
12
48" Pneumatic
72"
100mm
80mm
1900kg
704 LPM
13
48" Electrical Actuated
72"
100mm
80mm
1900kg
704 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
• 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
18
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
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
TECHNICAL SPECIFICATIONS
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
CONTENTS
Pictures are for illustration purposes only
Dimensions and capacities are approximate only
19
11. ELECTRIC SYSTEMS
ELECTRIC SYSTEMS
MANGANESE
GREENSAND
FILTERS
NEXTSAND
FILTERS
FEATURES
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
• 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
MANGANESE GREENSAND FILTER SIZES
Size
Width
Height
Inlet/Outlet
Waste
Weight
Product Flow
Product Flow
1
16"
65"
50mm
40mm
200kg
55 LPM
206kg
25 LPM
2
21"
62"
50mm
40mm
350kg
109 LPM
300kg
39 LPM
3
24"
71"
50mm
40mm
450kg
180 LPM
464kg
57 LPM
4
30"
72"
50mm
40mm
650kg
223 LPM
762kg
90 LPM
5
36" Aquamatic
72"
50mm
40mm
800kg
262 LPM
40mm
975kg
135 LPM
6
36" Pneumatic
72"
80mm
80mm
850kg
262 LPM
80mm
1500kg
182 LPM
7
36" Electrical Actuated
72"
80mm
80mm
900kg
262 LPM
1500kg
182 LPM
8
42" Aquamatic
72"
80mm
80mm
1000kg
434 LPM
9
42" Pneumatic
72"
80mm
80mm
1100kg
434 LPM
Size
Width
Height
Inlet/Outlet
Waste
1
2
16"
65"
50mm
40mm
21"
62"
50mm
40mm
3
24"
4
30"
71"
50mm
40mm
72"
50mm
40mm
5
36"
72"
50mm
6
42" Aquamatic
72"
80mm
7
42" Pneumatic
72"
80mm
80mm
Weight
8
42" Electrical Actuated
72"
80mm
80mm
1500kg
182 LPM
9
48" Aquamatic
72"
80mm
80mm
2200kg
234 LPM
10
42" Electrical Actuated
72"
80mm
80mm
1100kg
434 LPM
48" Aquamatic
72"
100mm
100mm
1550kg
570 LPM
10
48" Pneumatic
72"
80mm
80mm
2300kg
234 LPM
11
11
48" Electrical Actuated
72"
80mm
80mm
2300kg
234 LPM
12
48" Pneumatic
72"
100mm
100mm
1700kg
570 LPM
13
48" Electrical Actuated
72"
100mm
100mm
1700kg
570 LPM
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
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
• 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
20
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
CONTENTS
Pictures are for illustration purposes only
Dimensions and capacities are approximate only
21
12. ELECTRIC SYSTEMS
ELECTRIC SYSTEMS
BAG
FILTERS
DMI-65
FILTERS
FEATURES
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
• 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
BAG FILTER SIZES
Width
Height
Inlet/Outlet
Waste
Flow Rate
Single SX-100
Size
465mm
800mm
1207mm
50mm
150 LPM
Dual SX-100
800mm
900mm
1208mm
75mm
300 LPM
Triple SX-100
550mm
1200mm
1032mm
80mm
450 LPM
DMI-65 FILTER SIZES
Size
Width
Height
Inlet/Outlet
Waste
Weight
1
16"
65"
50mm
40mm
250kg
2
21"
62"
50mm
40mm
400kg
TECHNICAL SPECIFICATIONS
3
24"
71"
50mm
40mm
400kg
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
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
SYSTEM INCLUSIONS
10
48" Electrical Actuated
72"
80mm
80mm
2400kg
11
48" Pneumatic Actuated
72"
80mm
80mm
2400kg
• Inlet and outlet pressure gauges
• Bleeding valve
• Sample valve
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
Pictures are for illustration purposes only
Dimensions and capacities are approximate only
22
CONTENTS
23
13. SPECIFICATIONS
KINETICO NON–ELECTRIC SYSTEMS
KINETICO
NON-ELECTRIC
SYSTEMS
KINETICO
NON-ELECTRIC
FILTERS
MACROLITE
Size
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
OUR RANGE OF NON-ELECTRIC CONFIGURATIONS
ARE BUILT TO YOUR SPECIFIC REQUIREMENTS.
Flow Rates
@ 6.8 LPS/
m2
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
24
CONTENTS
25
14. ELECTRIC SYSTEMS
INDUSTRIES
ELECTRIC SYSTEMS
WATER
SOFTENERS
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.
26
CONTENTS
27
16. ELECTRIC SYSTEMS
WATER SOFTENERS
KINETICO NON-ELECTRIC ELECTRIC SYSTEMS
WATER SOFTENERS
SINGLE, DUPLEX AND
TRIPLEX SYSTEMS
KINETICO MACH
SERIES
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.
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.
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
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.
WATER SOFTENER SYSTEM SIZES
Size
Width
Height
Inlet/
Outlet
Waste
Brine Line
Resin
1
16"
65"
2
21"
72"
Soft Usage
(Min-Max)kg
Weight
50mm
40mm
20mm
50mm
40mm
20mm
Brine Tank
125L
(8-30)
255kg
24"x50"
FEATURES
175L
(11-43)
311kg
24"x50"
• 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.
3
24"
72"
50mm
40mm
20mm
225L
(16-61)
560kg
24"x50"
4
30"
72"
50mm
40mm
20mm
500L
(32-120)
1015kg
30"x48"
5
36"
72"
50mm
40mm
20mm
600L
(38-144)
1158kg
39"x60"
6
42"
72"
80mm
50mm
20mm
850L
(54-204)
1300kg
42"x60"
7
48"
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
Pictures are for illustration purposes only
Dimensions and capacities are approximate only
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
CONTENTS
31
17. NON-ELECTRIC WATER SOFTENERS
NON-ELECTRIC ELECTRIC SYSTEMS
WATER SOFTENERS
KINETICO CC SERIES
KINETICO
COMMERCIAL
PLUS
(CP 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.
THE CP SERIES – WATER
SOFTENERS
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
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.
WATER SOFTENER SYSTEMS CC RANGE
Specifications
CC206s
FEATURES
CC206c
CC208s
• 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
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
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
Flow Range (LPM)
1-34
1-34
1-38
2206
2770
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
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
0.6
Micro Nozzle (optional)
Meter Range (LPM)
2.8-151
4.1-189
Flow Range 915/30 (psi)
Overdrive (LPM)
106-151
132-178
76-114
87-125
684/872
684/838
Maximum Volume between
Regenerations
2770
Salt Used (kg)
CP 213s OD
Max Hardness (ppm)
(Overdrive/Alternating)
1-38
2206
Specifications
Alternating (LPM)
Half Louvre Nozzle
Meter Volume (litres)
CP SERIES SPECIFICATIONS
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)
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
32
2.8-15
Flow Range (ALT) (LPM)
* Based on specification of external meter
2.8-15
15 min
15 min
Remote Start
CONTENTS
33
18. ELECTRIC SYSTEMS
NON-ELECTRIC WATER SOFTENERS
ELECTRIC SYSTEMS
HYDRUS SOFTENING
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
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
SIMPLEX
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.
DUPLEX
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.
TRIPLEX
HS324s
17.41
0.95
227
1715
>4000
120
None (3)
24x65
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
HYDRUS WATER SOFTENERS
TANK CONFIGURATIONS
12.30
HS330s
15.33
21.77
2.52
736
6,208
>4000
150
None (3)
42x72
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
CONTENTS
35
19. MEMBRANE TECHNOLOGY
MEMBRANE TECHNOLOGY
INDUSTRIES
MEMBRANE
SYSTEMS
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.
36
CONTENTS
37
20. 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.
“
1
1. 10KL/hour Reverse Osmosis
System
2. Multimedia Tanks
3. Reverse Osmosis water
storage & Ozone disinfection
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.
4. Reverse Osmosis Systems
5. Ozone disinfection &
Macrolite Filtration System
6. Batches are mixed with
water prior to bottling
2
3
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
4
5
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.
6
”
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
CONTENTS
39
21. 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
DESALINATION TREATMENTS
MINING
AGRICULTURE
DRINKING WATER
PURIFICATION
PURE WATER – TYPE I AND II
FOR LABORATORIES
BORE WATER
FOOD AND BEVERAGE
INDUSTRY
WATER AND WASTE WATER
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
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.
40
CONTENTS
41
22. MEMBRANE TECHNOLOGY
INDUSTRIES
ULTRAFILTRATION
SYSTEM
ULTRAFILTRATION
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.
ULTRAFILTRATION IS A SEPARATION PROCESS
USING MEMBRANES WITH PORE SIZES IN THE
RANGE OF 0. TO 0.001 MICRONS. TYPICALLY
1
,
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.
• 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
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
FEATURES
In ultrafiltration, for many applications, no pre filters are
used and ultrafiltration modules concentrate all of the
suspended and emulsified materials.
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
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
Pictures are for illustration purposes only
Dimensions and capacities are approximate only
42
CONTENTS
43
23. INDUSTRIES
MEMBRANE TECHNOLOGY
REVERSE OSMOSIS
A Reverse Osmosis system is able to remove and reject a
broad spectrum of impurities from water with minimal energy.
REVERSE
OSMOSIS
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
REVERSE OSMOSIS (RO) IS A MEMBRANETECHNOLOGY FILTRATION METHOD THAT
REMOVES MANY TYPES OF LARGE MOLECULES
AND IONS FROM SOLUTIONS.
TECHNICAL SPECIFICATIONS
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
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
It effectively removes turbidity, colloidal matter, toxic metals, micro-organisms, pesticides, sediment, TDS,
radioactive elements, asbestos and herbicides.
• 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
44
CONTENTS
45
24. MEMBRANE TECHNOLOGY
INDUSTRIES
RO/EDI SYSTEM
This system delivers superior Reverse Osmosis water
purification solutions for the most high end laboratories and
health care requirements.
KINETICO
TL SERIES
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.
COMMERCIAL MEMBRANE
SYSTEMS
• 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
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 Kinetico’s
patented EverClean rinse.
FEATURES
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.
Kinetico’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"
46
CONTENTS
20"
47
25. MEMBRANE TECHNOLOGY
INDUSTRIES
KINETICO
TL SERIES
THE
DESALINATION
PROCESS
TL SERIES FEATURES
• Extended membrane life
• Easily expanded
• EverClean rinse
• Variable recovery
• Compact design
• High permeate output
• Digital micro-processor controlled
• Quiet operation
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.
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
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.
*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
CONTENTS
The traditional process used in these operations is
vacuum distillation – 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
26. 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
50
CONTENTS
51
27. MEMBRANE TECHNOLOGY
DOLPHIN
DESALINATORS
SEAWATER MINI RANGE
BASIC AND YACHTY MODULAR
SERIES SIZES AND SPECIFICATIONS
Basic Series
Modular
Dolphin Desalinators are suitable for a number of applications
including on board vessels, resorts and remote communities.
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
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)
1300
570
550
25/10
13
240VDC/50 Hz
210 l/hr
Yachty Series
Modular
We offer two systems to meet various requirements and
production needs.
BASIC SERIES
YACHTY COMPACT
SERIES SIZES AND SPECIFICATIONS
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 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
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
Note: Larger Systems can be built with ability to produce up to 500,000 litres per day.
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
CONTENTS
53
28. ELECTRIC SYSTEMS
INDUSTRIES
ELECTRIC SYSTEMS
DEIONISATION
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 25°C).
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.
54
CONTENTS
55
29. 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
“
1
1. Water arrives for testing
2. DI – 5 tank filter system
3. Water Polisher in laboratory
4. Alarm in the laboratory
5. Sydney Water – equipment washing
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!”
2
3
4
5
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
CONTENTS
57
30. FAQ
ELECTRIC SYSTEMS
DEIONISATION APPLICATIONS
LABORATORIES AND
RESEARCH
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?
COSMETIC AND
PHARMACEUTICAL
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?
HOSPITALS AND INSTITUTIONS
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.
LAUNDRIES
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
FOOD PROCESSING PLANTS
CAR WASHING
58
ELECTRICAL MANUFACTURING
ENGINEERING
CONTENTS
59
31. WHY USE A DEIONISATION
SYSTEM AND SERVICE?
DEIONISATION PROCESS FLOW DIAGRAM
raw water
Ca, Mg Na
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.
anions
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.
cation
resin
resin
anion
resin
attracts cations
& exchanges
H + ions to the
water
resin
attracts anions
& exchanges
OH- ions to the
H + water
cation vessel
A DEIONISATION
SYSTEM DELIVERS
A HASSLE FREE,
CONSTANT SUPPLY
OF PURE WATER.
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
two column demineraliser
mixed
bed
resin
ultra
high quality
water
- minute ionic
carry over
anion vessel
two column demineraliser
mixed bed vessel
three column demineraliser
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
GUARANTEED.
• 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
SAME DAY EMERGENCY
SERVICE OR NEXT DAY
STANDARD SERVICE
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
Post Filter Installation
Specs WxDxH (mm)
600x300x550
400x180x500
250x180x500
600x300x550
400x180x500
250x180x500
SDI MB015
650x 210x1400
400x180x500
250x180x500
SDI MB022
620x 210x900
400x180x500
250x180x500
SDI MB034
60
Pre Filters Installation
Specs WxDxH (mm)
SDI MB012
1034x300x1450
250x180x500
1200x350x1800
250x180x500
250x180x500
SDI MB100*
1200x350x1500
400x180x500
• 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
250x180x500
SDI MB060*
PLANT TANK
REGENERATION
Tanks Installations
Specs WxDxH (mm)
SDI MB007
AFFORDABLE RENTAL
SOLUTION
Sourced from INC PDF
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.
C1, S04, C08, S102
250x180x500
• 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.
CONTENTS
61
32. INDUSTRIES
RECLAIM
SYSTEMS
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 world’s ever growing
population is recognised globally as one of mankind’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.
62
CONTENTS
63
33. RAINWATER HARVESTING
RAINWATER
HARVESTING SYSTEM
RECLAIM SYSTEMS
APPLICATIONS
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
GOLF COURSES
• 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)
MUNICIPAL
RAINWATER HARVESTING PLANT SIZES
Size
Height
Inlet/Outlet
Electrical Power
Product Flow
1800mm
1208mm
50mm
127W
150 LPM
800mm
1900mm
1208mm
75mm
185W
300 LPM
450 LPM
IRRIGATION AND AGRICULTURE
Length
465mm
300 LPM
STORM WATER DRAINS
Width
150 LPM
550mm
2200mm
1208mm
80mm
370W
450 LPM
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
VEHICLE WASH
TECHNICAL SPECIFICATIONS
• 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)
WATER CONSERVATION
Pictures are for illustration purposes only
Dimensions and capacities are approximate only
64
CONTENTS
65
34. 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
CONTENTS
67
35. WATER OZONE SYSTEMS
INDUSTRIES
WATER OZONE SYSTEMS
OZONE
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.
68
CONTENTS
69
36. CASE STUDY
EASTCOAST FOOD
AND BEVERAGE
COMPANY
COMPANY PROFILE
1
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.
1. Bottling line
2. Water bubbling in the
storage tank.
3. Ozone Generator
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.
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
”
Peter Croft, CWS Business Development Manager.
2
3
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
CONTENTS
71
37. AIR OZONE SYSTEMS
AIR OZONE SYSTEMS
SERIES 3000
WATER OZONE APPLICATIONS
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
HOSPITALITY AND
COMMERCIAL KITCHENS
• 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
FOOD STORAGE AND FOOD
AND BEVERAGE PROCESSING
TECHNICAL SPECIFICATIONS
Code
WASTE AND GARBAGE
HOLDING AREA
Air Flow
Single lamp with
analog bus
Standard
3m3 /min
3210C
Double lamp
with analog bus
Standard
3110T
Single lamp with
built in timer
3210T
3610
AIR OZONE APPLICATIONS
Output
(g/hr)
Concentration
by weight
Ambient Air
ICE MAKING
Series
3110C
WATER PURIFICATION IN
PLACE OF CHEMICALS SUCH
AS CHLORINE
Description
Recommended
Room size
Power
AMPS
Specs
HxWxD(mm)
Kg
Ambient Air
1.5
0.05
50m3
48W
0.5A
220x 200x360
4.5
3m3 /min
4.0
0.05
70m3
75W
0.82A
220x 200x360
5.4
Premium
3m3 /min
1.5
0.05
50m3
50W
0.5A
220x 200x360
5.2
Double lamp
with built in timer
Premium
3m3 /min
4.0
0.05
70m3
80W
0.82A
220x 200x360
6.2
High flow, high
output double
lamp
High
Flow
6.57m3/min
2.7
0.05
150m3
125W
1A
220x 200x550
7
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
CONTENTS
73
38. 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
Code
Series
Air Flow
Output
(g/hr)
AMPS
Specs
HxWxD (mm)
Weight
2400
74
Description
Carona Discharge Ozone Generator 300mg/hrs
Standard
1.1m3 /min
0.3
0.45
340x160x120
1kg
CONTENTS
75