Air TEc RO Plus l Parts list manual
SystemGuide
Item nr. 999121
Air Humidication
& Water Treatment
2
Updated/New Pages In This Version
Section Description
New version due to:
201218
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Contents
1. Preface .......................................................4
2. Prior To The Installation ........................................4
3. General System Overview.......................................5
3.1 System setup examples ........................................5
3.2 Component function description. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13
4. Datasheet ...................................................15
4.1 General requirements.........................................15
4.2 Supply water requirements for humidication systems ............16
4.3 Filter house..................................................18
4.4 Softener ....................................................18
4.5 Carbon lter .................................................19
4.6 Reverse osmosis............................................. 20
4.7 UV, type 405 AL ............................................. 22
4.8 Dosatron ................................................... 23
4.9 HydroSens™ .................................................24
4.10 Hoses ...................................................... 25
4.11 Cables ......................................................26
4.12 Atomizers and ex........................................... 28
4.13 Nozzles .................................................... 28
4.14 Sensor ..................................................... 29
4.15 AHU pads................................................... 30
5. Installation ..................................................31
5.1 Pre instruction ...............................................31
5.2 First water lter..............................................31
5.3 Softening ...................................................31
5.4 Carbon lter .................................................31
5.5 Second water lter ...........................................31
5.6 RO Inline™ ..................................................32
5.7 RO Plus™ ....................................................32
5.8 RO Basic™ ...................................................33
5.9 HydroSens™ .................................................33
5.10 High pressure hoses and cables................................ 34
5.11 Atomizers ...................................................35
5.12 Sensor ..................................................... 36
5.13 AHU ........................................................37
5.14 Scada and datalog ........................................... 38
6. Startup & Commissioning......................................39
6.1 Pre instruction ...............................................39
6.2 Filter house..................................................39
6.3 Softener ................................................... 40
6.4 Carbon lter ................................................ 40
6.5 RO Inline™ ..................................................41
6.6 RO Plus™ ....................................................42
6.7 RO Basic™ ...................................................43
6.8 HydroSens™ InRoom ......................................... 44
6.9 HydroSens™ AHU ............................................ 46
6.10 Atomizer & HydroFlex ........................................ 48
6.11 Sensor ..................................................... 48
6.12 AHU ....................................................... 48
6.13 Scada and dataLog .......................................... 48
6.14 AirtecCare checklist .................................................49
7. Customer Training & Handover .................................50
8. Service ......................................................52
8.1 AirtecCare checklist .................................................52
8.2 Service interval ............................................. 53
8.3 Raw water supply ........................................... 54
8.4 Filter house................................................. 54
8.5 Softening system.............................................55
8.6 Carbon lter ................................................ 56
8.7 RO Inline™ ................................................. 57
8.8 RO Plus™ ....................................................59
8.9 RO Basic™ ...................................................61
8.10 HydroSens™ ................................................ 63
8.11 Atomizers/HydroFlex. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64
8.12 Atomized water bio test (optional)............................. 65
8.13 Disinfection ................................................ 65
8.14 Checklist VDI 6022 - planning, installation & maintenance ........ 66
8.15 Checklist VDI 6022 - periodic hygiene check for AHU...............67
9. Display Menu.................................................68
9.1 HydroSens™ InRoom ......................................... 68
9.2 HydroSens™ AHU .............................................70
9.3 HydroSens™ - ethernet and time setup ......................... 72
9.4 RO Inline™ ................................................. 73
9.5 ExternalBox .................................................76
9.6 RO Inline™/ExternalBox - ethernet and time setup ............... 79
10. Spare Parts Lists & Recomandations ...........................80
10.1 Filter house................................................. 80
10.2 Softening .................................................. 80
10.3 Hardness alarm ............................................. 80
10.4 Carbon..................................................... 80
10.5 RO Inline ....................................................81
10.6 RO Plus .....................................................81
10.7 RO Basic.....................................................81
10.8 UV. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .81
10.9 HydroSens / pump unit....................................... 82
10.10 Sensor ..................................................... 82
11. Troubleshooting.............................................83
11.1 Softening .................................................. 83
11.2 RO Inline™.................................................. 87
11.3 RO Plus™ ................................................... 94
11.4 RO Basic™ .................................................. 99
11.5 HydroSens™ InRoom & AHU.................................. 103
11.6 HydroSens™ inverter fault codes ...............................112
11.7 Hygienic ...................................................114
12. Spareparts & Consumables...................................116
12.1 Filter house.................................................116
12.2 RO Inline™..................................................117
12.3 RO Plus™ .................................................. 120
12.4 RO Basic™ ................................................. 123
12.5 HydroSens™ ................................................124
12.6 Fitting .....................................................126
12.7 Fittings and hoses ...........................................127
12.8 HydroJet™................................................. 128
12.9 HydroTrio™ ................................................ 129
12.10 HydroOne™................................................ 130
12.11 HydroFlex™ PA ..............................................131
12.12 HydroFlex™ S ...............................................132
12.13 Sensor .....................................................133
12.14 HydroSens™ AHU - nozzle rack S and bulkhead.................. 134
12.15 HydroSens™ AHU - nozzle rack PA and bulkhead .................135
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This manual has been written to ensure the safe use, performance and longevity of the equipment and is intended for use by proper trained technical personnel.
Airtec® A/S works continuously on research and development. Airtec® A/S reserved the right to amend, without notice, the specications provided in this document.
Airtec® A/S does not guarantee, or accept liability for the accuracy of the information of this document.
Correct use:
The Airtec® A/S humidication system is intended for adiabatic humidication and cooling. Any other use is not considered intended use.
Warranty:
Airtec® A/S parts are warranted for 2 years from date of invoice, against material and manufacturer defects of the product. Failure to observe the manufacturers
installation and maintenance recommendations and instructions will invalidate the warranty.
Guide to symbols:
Instructions relating to safety
Instructions relating the correct operations of the product
2. Prior To The Installation
Prior to installation there is a range of relevant steps to consider.
The shipment and delivery note:
Carefully check that the supplied equipment is undamaged at arrival. Do not accept delivery of damaged freight. Report to Airtec® A/S.
Check that the content of the shipment matches the delivery note.
Site survey:
Go through the site with relevant customer representative, use the supplied layout drawing, handover document and order conrmation to vertify and agree the steps
of the installation. Minor changes and adjustments to the installation and layout should be agreed at this stage. Look out for air vents, down draft, turbulence, comfort
zones etc. things that can negatively inuence the performance of the atomizers and the system, the people on site, products and processes.
Power, water and drain:
Check that all supplies are ready and accordingly with specications.
Installation and maintenance guide:
Please read Airtec SystemGuide thoroughly before specifying, designing, installing or maintaining an Airtec® A/S system.
Health and safety:
Installation, maintenance, repair work or de-commissioning should only be carried out by proper trained technical personnel. You should make sure to comply with the
customers on site guidelines for health and safety. You should ensure that the installation of the equipment complies with that of local regulations.
Any risks or hazards relating to the system, including during installation and maintenance, should be identied by a competent health and safety representative who shall
be responsible for introducing eective control measures and relevant guidelines. You should make sure to bring any issues forward to the representative.
Always isolate all supplies to the system before commencing any work on the system.
Secure the system power supply against unintented reconnection during work.
Personnel protective equipment:
An appointed health and safety representative shall be responsible that all relevant guidelines and rules are followed.
Hygiene:
To prevent growth of bacteria, users are required to:
• Carry out risk assessment of the water, implementing an appropriate monitoring and control system
• Avoid water temperatures which favor growth of bacteria
• Avoid stagnant water
• The Airtec® A/S system should at all times be connected to a clean mains water supply.
• A water report should be conducted by the customer from the connection point.
• Customer supplied treated water should be checked for additives or chemicals of any kind.
• The Airtec® A/S system should always be left in operation mode and left powered on at all time.
• Cleaning and disinfection to be performed in accordance with the technical guidelines in this systemguide.
This humidier should be installed, operated and maintained in accordance with this manual and system user manual
1. Preface
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HydroSens
RO Inline 300
HydroJet HydroTrio
HydroOne
HydroFlex
Softening CC206c / CC208c
Filter Filter w. gauge
Sensor
3.GeneralSystemOverview
3.1 System setup examples
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RO Inline 300
HydroSens
HydroTrio
HydroJet
RO Inline 500
HydroFlex
Filter w. gauge
Carbon lter
Softening Mach 2060s / 2100s
Sensor
Filter
External Staet Zone 1
3.GeneralSystemOverview
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HydroOne
HydroSens
RO Basic
Sensor
Filter w. gauge
RO Water Tank
3.GeneralSystemOverview
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RO Plus
HydroSens
HydroTrio HydroJet
RO Water Tank
Filter w. gauge
Carbon lter
Softening Mach 2060s / 2100s
Sensor
Filter
RO Water to external use
3.GeneralSystemOverview
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10010
20
20 20
10010 15 15
100 15 15
25
100 15 15
10010 15 15
RO Basic
CC206/208c Mach 2060/2100s
10
10015 30 15
3.GeneralSystemOverview
Recomended distances in cm
FrontSide
FrontSide
Carbon lter 1,4 m³ Carbon lter 0,5 m³
Filter
FrontSide
FrontSide
FrontSide
FrontSide
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HydroSensRO Inline
RO Plus
10050 30 15 100 15 15
100100 3030 30 30
100
80
3.GeneralSystemOverview
RO water tank
FrontSide
FrontSide
FrontSide
FrontSide
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3.GeneralSystemOverview
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3.GeneralSystemOverview
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3.2 Component function description
Filter with manometer:
First 1µ lter, is to ensure ltration of particles that can have an adverse eect on our operating components and to help extend the lifetime and
operational stability of the entire system.
The manometer is to monitor the supply pressure at full load.
Softener:
Hard water is softened by removing the calcium, magnesium and dissolved Iron it contains. When hard water passes through the softening system
resin bed, the calcium and magnesium (hardness) ions are removed through an ion exchanger process, so only softened water passes through.
Once the resin bed lls up with hardness ions, it must be regenerated (cleaned). Salt is used in the regeneration process and restores the resin to a
clean state so the process can begin again.
All our softening systems are double system, so it can provide you with soft water at all time.
Carbon lter:
The main purpose is to remove chlorine from the supply water, due to it´s harmful eect on the RO-membranes, and to remove odor.
Second lter:
Second lter is to prevent bigger particles to pass on to the highpressure system or to the RO, in case of failure on prelter, carbon or softener.
When looking at the color of this lter during service, it also gives good indication if the interval for prelter change should be increase.
RO (Reverse Osmosis):
Reverse osmosis water purication is capable of removing dissolved salts, and up to 98 % of all solids, bio soil, viruses and bacteria.
Reverse osmosis is a demineralization process of water that relies on a semipermeable membrane to eect the separation of dissolved solids.
Pressure higher than the osmotic pressure, is applied on the water that contains the high-concentrate solution and the water is forced through a
membrane to the oppsite side with the low-concentration solution.
UV:
When the UVC rays hit the microorganisms and penetrate the cell, the DNA is destroyed in the cells and prevents the cell’s ability to reproduce. This
prevents the cell from multiplying itself to an infection in a host. It also prevent groth of biolm.
3.GeneralSystemOverview
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Hydrosens for InRoom application:
Our high pressure pump and control unit, is designed to supply water to nozzle atomizers at a constant pressure to multiple rooms or steps, constantly
adapting to variable ow conditions.
During this process the control is monitoring that all conditions are within the operational spectra, to obtain and maintain operational stability and
safe operation.
The pump starts and activates a specic zone valve. When the setpoint is reached, the zone valve deactivates, closing operation mode and activating
drain mode to relieve the pressure from the nozzle fast to prevent dripping.
The drain line will retain a pressure of 2,5 bars in the hoses in standby condition. This keeps air out of the pipes ensuring instant atomization from the
nozzles when starting up.
Atomizer:
Atomizing is done from an atomizing unit with a certain amount of nozzles or from a exible “nozzle in a line“ installation.
The single nozzle can be applied in dierent capacity range depending on needs, installation and ambient conditions.
Sensor:
The position of the sensor is determinating the control feedback signal to the Hydrosens. It is therefore important to position the sensor correct.
Hydrosens with AHU application:
Our high pressure pump and control unit, is designed to supply water to the air handeling unit´s spray chamber, at a constant pressure constantly
adapting to variable ow conditions.
The control setup makes it possible to adjust the output to be almost 100% linear.
During this process the control is monitoring that all conditions are within the operational spectra, to obtain and maintain operational stability and
safe operation.
The output is controlled by multiple solenoid valves.
This is controlled by 2 control loops:
1. The wanted setpoint from the room/BMS system.
2. The output from the humidication champer.
The PI control is ensuring that maximum saturation and minimum waste is present during operation.
AHU pads:
Our glaspads are designed to ensure the most eciency saturation of the air, and obtain as close to 100% of the atomized water to minimize waste.
The pads retain water droplets to the humidication chamber.
3.GeneralSystemOverview
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4.Datasheet
Power supply: Carried out to meet local regulations
Terminated in an approved lockable supply separator
Example:
See product requirements in datasheet
HydroSens systems include a Frequency inverter Example: Safety relay AC/DC type B
Room temperature: See datasheet and order conrmation
Water supply: Standard 3/4” internal tread See datasheet and order conrmation
Pressure range See datasheets full load min/max
Supply minimum requirements at full load Note the pressure loss in lter / softener ect.
See water report to determent the quality See water requirement datasheet
Floor drain: • Installation-/technic room must have oor drain to
ensure unintended water leakage will lead to drain
• Carried out to meet local regulations Example:
Free workspace around all units:
AHU:
Spray chamber: Water proof
Corrosion resistant
Inspection / service door with window
light
Access to pads from both side
Floor drain
Floor leveling towards drain
Insure safe distance to absorbent material
Material: Non absorbent
Must not provide nutrients for microorganism
Supply air: Laminated / smoothen
Always check order conrmation for non standard agreements
4.1 General requirements
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4.Datasheet
4.2 Supply water requirements for humidication systems
The performance and safety of a humidication system is depending on a clean water supply. Below table is showing the minimum requirements for a water supply.
These water parameters do not exclude the need for dierent type of water treatment. This only represents an acceptable baseline.
Name Chemical code Value Drinking water limits Comments
Physical/chemical parameters
Iron Fe Mg/l 0,2 High level, add iron lter
Manganese Mn Mg/l 0,05
Calcium Ca Mg/l 200 See Hardness
Magnesium Mg Mg/l 50
Sodium Na Mg/l 175
Potassium KMg/l 10
Ammonium NH₄ Mg/l 0,05
Chloride Cl-Mg/l 250
Nitrate NO₃ Mg/l 50
Flourine FMg/l 1,5
Nitride NO₂ Mg/l 0,1
Hydrogen sulde H₂S Mg/l 0,05
Methane CH₄ Mg/l 0,01
Chlorine (Free chlorine) Cl Mg/l 0,1 High level, add carbon lter
Potassium permanganate KMnO₄ Mg/l 10
pH 7 to 8.5
Conductivity µS/cm Min. 300, max. 1000 5 to 30, system recommended. RO ltration
Hardness dH⁰ 30 > 3 recommend Softening system
Temp ⁰C 12
Color of the water Mg Pt/l 15
NTU Max 1
Silt density index SDI Max 3
Microbiological parameters
Coliform bacteria Non
Bacteria, 37 ⁰C 20/ml
Bacteria, 22 ⁰C 200/ml
Short description to Physical/chemical parameters.
Hardness:
Iron, manganese, calcium and magnesium are all part of total water hardness. So to determine what softener to choose, you need:
• dH° + Iron + Manganese
or
• Calcium + Magnesium + Iron + Manganese.
Max value is in the diagram above.
If the hardness is present in another value than dH°, you need to convert it from for example: gr/gal or mmol.
Sodium Na+:
Sodium is element no. 11 in the periodic system. Normally it is present in water as SodiumChloride, or SodiumBicarbonate (salt and soda).
Sodium can be removed with RO water ltration with up to 99% removal.
Atomized Sodium in high consentration can be visible as white shiny dust
Potassium K+:
Potassium in the water can be sign of pollution of some kind. Otherwise there is no taste, health or disadvantage with a level above drinking water standart max value. <
10mg/l.
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4.Datasheet
Inorganic compounds.
Armmonium NH4:
Ammonium can be a sign of pollution, but often it has to do to with the type of soil layer. Ammonium can during watertreatment be transformed into Nitrate and Nitride.
One of the main reasons to avoid Ammonium in tap water is to avoid using chlor as disinfection, or to get readings of Nitride NO2.
Chloride Cl-:
High content of Chloride can give the water a bad taste. In hot water systems there is a risk of corrosion of the hotwater system. Chloride is typically present in areas near
seawater, or in salty soil. Chloride can be removed with RO ltration.
Nitrate NO3
-:
Too high value of Nitrate can be unhealthy and eect the digestive system, and eect oxygenation in blod. Nitrate in pure drinking water is typical < 5-10 mg/l normally it
comes from Ammonium (se Ammonium). Nitrate in raw water together with Nitride, can indicate pollution.
Nitride NO2
-:
Nitride in water is an unstable connection, from Ammonium. If the report in raw water (well water) show sign of Nitride, it is a sign of pollution or bacteriological activity.
In pure water it can be an active Ammonium process.
Hydrogene sulde H2S:
Is a toxic gas. In low consentration it smell like ”rotten eggs“. In very small amounts it’s unhealthy to human. Presents of hydrogen sulphide can be a sign of shallow well water.
Chlorine Cl:
Chlorine is used to disinfect waterlines where there is a risk. Chlorine will destroy the RO membrane instantly.
Trihalomethane THM:
Is a chemical compounds from Methane or from Chlorine. If THM is present in a water report it can be wise to check for Chlorine.
Potassium permanganate KMnO4:
Is an expression of contents of oxygenation of organic material and can be indicating pollution or a problem with water treatment.
There is a possibility that the water color is yellowish and have a strange taste.
pH:
Is an expression of water acidity, and is related
to the water content of bicarbonate and CO2.
Conductivity µS/cm:
Conductivity is a measure of water’s capability to pass electrical current. This ability is directly related to the concentration of ions in the water. These conductive ions come
from dissolved salts and inorganic materials such as alkalis, chlorides, suldes and carbonate compounds.
Turbidity NTU:
NTU stands for Nephelometric Turbidity Unit and signies that the instrument is measuring scattered light from the sample at a 90-degree angle from the incident light.
This refers to how clear the water is, even if it’s ultra-small particles you can’t see with your eye. Example. If the water has a high iron or calcium content, it will give higher NTU.
Silt density index SDI:
Silt is composed by suspended particulates of all types that accumulate on the membrane surface. Sources of silt are organic colloids, iron corrosion products, precipitated iron
hydroxide, algae, and ne particular matter. Silt Density Index testing is a widely accepted method for estimating the rate at which colloidal and particle fouling will occur
in water purication systems, especially using reverse osmosis (RO) or Nanoltration membranes. SDI is a measurement of the fouling potential of suspended solids. It’s not
measuring the quantity of particular matter, since the size and shape vary.
The SDI test is used to predict and then prevent the particulate fouling on the membrane surface.
Other names for it is Kolloid-Index (KI) or Fouling-Index (FI). The test is dened in ASTM Standard D4189, the American Standard for Testing Material.
Microbiological parameters.
Coliform bacteria:
Coliforms can be found in the aquatic environment, in soil and on vegetation. While coliforms themselves are not normally causes of serious illness but used to indicate
that other pathogenic organisms or fecal origin may be present, there must be no coliform bacteria in the water.
Bacteria, 37°C:
Are bacteria that can grow at body temperature and be causative or followed by causative bacteria. The tolerance of bacteria 37°C is therefore close to 0 in supply water.
Bacteria, 22°C:
This “cold” bacteria, is natural present in nature (soil, water and decay bacteria) it lives of the organic material in the water. It is not common that is causes disease, but must not
be present in “high numbers” it is important to observe sudden changes.
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CC208cCC206c Mach 2060s Mach 2100s
4.Datasheet
Material HQ FDA grade reinforced AS resin and PP Polymer
Filter element size 10” regular cartridge.
Filter element 1µ 60% or 90%
Port size 3/4” NPT
Color Black
Temperature range °C/°F 1-35 / 34-95
Pressure range bar/psi 1-8 / 14,5-115
Pressure loss af ow 1 m³/h in bar/psi > 1 / 14,5
4.3 Filter house
4.4 Softener
CC206c CC208c Mach 2060s Mach 2100s
Media vessel construction Wrapped polyethylene Wrapped polyethylene Wrapped polyethylene Wrapped polyethylene
Media type Non solvent cation resin Non solvent cation resin Non solvent cation resin Non solvent cation resin
Regeneration control Non-electric use meter Non-electric use meter Non-electric use meter Non-electric use meter
Inlet water quality:
Pressure range dyamic bar/psi 1-8 / 5-125 1-8 / 15-125 1-8 / 5-125 1-8 / 15-125
Temperature range °C/°F 1,5-30 /35-86 1,5-30 / 35-86 1,5-30 / 35-86 1,5-30 / 35-86
pH range 5 - 10 5 - 10 5 - 10 5 - 10
Free Chlorine Cl2max. mg/l 2,0 2,0 2,0 2,0
Hardness max. °dH/gpg 28 / 30 38 / 40 63 / 66 102 / 107
Operating specs:
Minimum ow l/min / gpg 0,2 / 0,05 0,2 / 0,05 1,2 / 0,3 1,2 / 0,3
Peak ow, output + regen. l/min Output + 2 Output + 3,2 Output + 3 Output + 4,3
Flow range at pressure loss: 1-2,1 bar
15-30 psi
34,4-57,5 l/min
9,1-15,2 gpm
38,6-56,8 l/min
10,2-15,0 gpm
43,5-68,1 l/min
11,5-18,0 gpm
45,4-71,9 l/min
12,0-19,0 gpm
Flow conguration Alternating Alternating Alternating Alternating
Regeneration time min. 11 11 45 90
Regeneration volume l/gal 19 / 5 34 / 9 133 / 35 387 / 102
Regenerations per day, max. 15 15 12 8
Salt capacity kg/lbs 18 / 40 45 / 100 113 / 250 113 / 250
Dimensions (width x depth x height) 360 x 360 x 560 mm
14” x 14” x 22”
510 x 560 x 715 mm
20” x 22” x 28”
435 x 205 x 1170 mm
17” x 8” x 46”
535 x 255 x 1525 mm
21” x 10” x 60”
Weight (operational / shipping) 50 / 19 kg
110 / 42 lbs
100 / 46 kg
220 / 100 lbs
90 / 46 kg
200 / 102 lbs
159 / 80 kg
350 / 175 lbs
Dimensions brine tank (W x D x H) -
-
-
-
460 x 460 x 890 mm
18” x 18” x 35”
460 x 460 x 890 mm
18” x 18” x 35”
Weight brine tank (shipping) kg/lbs - -- 8 / 18 8 / 18
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4.Datasheet
4.5 Carbon lter
Type 172217 0,5 m³ 172218 1,4 m³
Granular activated carbon USS-mesh 8x16 USS-mesh 8x16
Carbon lling volume l/gal 15 / 4 100 / 26,5
Regeneration control Non-electric use meter Non-electric use meter
Pressure max. bar/psi 6 / 87 6 / 87
Connections inlet/outlet 3/4” pushlock hose 3/4” pushlock hose
Free chlorine Cl2max. lg/l 0,5 0,5
Max. ow l/h /gph 500 / 132 1.400 / 370
Dimensions (width x depth x height) 195 x 195 x 845 mm
8” x 8” x 33,5”
345 x 345 x 1440 mm
13,5” x 13,5” x 56,5”
Weight (shipping) kg/lbs 14,5 / 32 80 / 177
Carbon 1,4 m³Carbon 0,5 m³
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4.Datasheet
RO Inline™ 300 RO Inline™ 500RO Plus™ l ROPlus™ ll ROPlus™lll RO Basic™
Water capacity, up to, l/h
at 15 °C/3 bar or 59 °F/44 psi supply pressure
300 600 900 90 at 3 bar / 44 psi
180 at 7 bar / 102 psi
300 500
Membranes, pce 1 2 3 1 1 2
Power supply V AC
230/240 V, 50/60 Hz is always 1P+N+PE
3x400/230 to 480/240 V, 16 Amp
3P + N + PE
230V, 13 Amp
1P + N + PE
230V, 13 Amp
1P + N + PE
Operating voltage range V AC ± 10 % ± 10 % ± 10 %
Frequency Hz
60 Hz is non standard
50/60 50/60 50/60
Membrane pressure pump kw 1,5 -0,75
Booster supply pump kw 0,5 0,5 -
Max. eect kw 2,0 0,5 -
Supply water pressure bar/psi 2-7 / 29-101,5 3-7 / 43,5-101,5 2-7 / 29-101,5
Supply water connection 3/4” 3/4” 3/4”
Membrane operating pressure range bar 10 - 13 (max. 15) 3 - 7 (max. 7) 10 - 13 (max. 15)
Alarm out, potential free
Stabilized salt rejection.
with 2000 mg/l NaCl at 25 °C/10 bar
Up to 98% Up to 98% Up to 98%
Vessel pressure range, bar - - 2 to 6 (default 2 to 5)
Hysteresis range - - 1 - 4 (default 3) bar
Outlet pressure bar 1,5 - 3,5 1,5 - 3,5 Min. vessel pressure - 1
Drain ush - with softener
- without softener up to 15 °dH
> 30 %
> 50 %
> 30 %
> 50 %
> 30 %
> 50 %
Temp. range °C/°F 1-20 (35) / 34-68 (95) 1-20 (35) / 34-68 1-20 (35) / 34-68
Noice level dB (A) < 70 < 70 < 70
Dimensions (width x depth x height) 720 x 600 x 1835 mm
28,5” x 23,6” x 72,3”
510 x 400 x 1650 mm
20,0” x 15,8” x 65,0”
incl. 200 mm / 8” elevation
695 x 380 x 1255
mm
27,4” x 15,0” x 49,4”
845 x 380 x
1255mm
33,3”x 15,0” x 49,4”
Weight kg/lbs
Weight incl. water in vessel kg/lbs
182/401
-
193/ 426
-
240/ 529
-
32 / 71
-
69 / 52
89 / 196
86 / 190
106 / 234
Protection class IP 53 53 52
Water tank incl. base
Volume, l 125 300 600 125
Dimensions (width x depth x height) mm 570 x 570 x 1100
22,5”x22,5”x 44”
750 x 750 x 1200
29,5”x29,5”x47,3”
750 x 750 x 1800
29,5”x 29,5”x 71”
570 x 570 x 1100
22,5” x 22,5” x 44”
Weight, kg 14 25 37 14
Temperature range °C/°F 1-20 (35) / 34-68 (95) 1-20 (35) / 34-68 (95)
4.6 Reverse osmosis
201218
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16
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