Waterite VECTAMAXX RSL Advanced Reverse Osmosis System Owner’s Manual
- June 17, 2024
- Waterite
Table of Contents
- Waterite VECTAMAXX RSL Advanced Reverse Osmosis System
- Frequently Asked Questions
- Designing your Installation
- Pre-Treatment Summary Chart
- Installation
- System Controller
- System Maintenance
- Troubleshooting Guide
- Common Replacement Parts
- Feed Water Flow Requirements
- VectaMaxx RSL Performance Log
- VectaMaxx RSL Electrical Wiring Diagram
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
Waterite VECTAMAXX RSL Advanced Reverse Osmosis System
OPERATOR’S MANUAL
FOR ALL VECTAMAXX™ RSL & RSLHP COMMERCIAL RO SYSTEMS
THIS MANUAL IS TO BE LEFT WITH THE OWNER OF THE EQUIPMENT FOR REFERENCE
PURPOSES AND TECHNICAL GUIDANCE. IT IS STRONGLY RECOMMENDED THAT QUALIFIED
DEALER SERVICE PERSONNEL BE CONTACTED IN THE EVENT OF AN UNKNOWN INTERRUPTION
OF SERVICE OR APPARENT PRODUCT MALFUNCTION. AN ANNUAL PREVENTATIVE MAINTENANCE
INSPECTION BY A WATER PROFESSIONAL IS RECOMMENDED TO ENSURE TROUBLE-FREE AND
CONTINUOUS OPERATION.
Congratulations!
You have purchased the finest commercial reverse osmosis water system
available. It will provide years of reliable service if properly installed,
operated, and maintained. Please read this entire manual before attempting
installation and operation.
Frequently Asked Questions
Before getting started, take the time to familiarize yourself with your new Waterite system by reading some FAQs listed below. Call us or ask your dealer if you have any other questions about your system’s operation.
Q: How does the VectaMaxx™ RSL Reverse Osmosis System differ from an
ordinary water filter?
Ordinary water filters use a screen to separate only particles of dirt and
sediment from the raw water source. Reverse osmosis employs a semi-permeable
membrane that removes not only particles but also a very high percentage of
dissolved contaminants, molecule by molecule, from your raw water. Your system
will deliver pure, refined water consistently to the designated storage tank
or water distribution equipment.
Q: What is the membrane and how does it work?
The membrane element consists of several thin layers or sheets of film that
are bonded together and rolled in a spiral configuration around a plastic
tube. As the raw water passes across the surface of the membrane, only pure
water molecules are allowed to pass through and collect in the tube, while all
other mineral and contaminant molecules are rejected and washed from the
surface of the membrane to the drain.
Q: What processes does the VectaMaxx™ RSL RO system use?
VectaMaxx™ RSL systems use two stages of treatment to produce high-purity
product water. The feed water first flows through a 5-micron polypropylene
filter used to reduce suspended particles. The second stage is the reverse
osmosis membrane(s) that separates most dissolved contaminants from the water
molecules. These standard processes will probably be augmented with additional
pre-treatment processes, depending on your raw water source.
Q: Will reverse osmosis remove sodium chloride and other salts from the
water?
Yes. Reverse osmosis was originally developed to make drinking water from
seawater. Your system is equipped with a membrane that will be very effective
in reducing sodium levels normally found in groundwater or softened water.
VectaMaxx™ RSL and RSLHP systems are not designed for use on seawater.
Q: Does reverse osmosis remove bacteria? Cryptosporidium? Viruses?
Reverse osmosis membranes will virtually eliminate most chemicals, bacteria,
viruses and parasites such as Cryptosporidium from the water. Where these
conditions exist, pre-filters and other system components located before the
membrane will become contaminated from exposure to them. Cross-contamination
of the entire system may occur when the membrane or filters are changed or
disturbed.
THIS REVERSE OSMOSIS WATER SYSTEM IS DESIGNED ONLY TO IMPROVE AESTHETIC
PROPERTIES AND IS NOT DESIGNED TO ACT AS A PRIMARY BARRIER TO WATERBORNE
MICROBIOLOGICAL OR TOXIC CHEMICAL CONTAMINATION. WHERE THESE CONDITIONS MAY
EXIST CONSULT A WATER PROFESSIONAL TO ENSURE SUFFICIENT RAW WATER PRE-
TREATMENT AND DISINFECTION.
Q: What other contaminants does reverse osmosis remove?
The combined filtering and RO processes in your system will remove more than
98% of many organic compounds, including THMs (chloroforms), DBCP, lindane,
TCE (trichloroethylene), PCE (tetrachloroethylene), carbon tetrachloride and
chlorine. Very conservatively, a TFC membrane will remove the following
percentages of contaminants:
Q: Where is the system installed?
Each application will require access to the feed water source, electrical
power, a storage vessel for the permeate and a drain for the wastewater to be
routed to. The system should be protected from the elements and at all times
protected from freezing. If the system is used to provide water to a critical
piece of equipment, you may consider protection from power surges and
lightning strikes.
Q: Can the VectaMaxx™ RSL system be connected to multiple appliances?
Yes. Many installations will involve providing water to multiple appliances or
pieces of equipment simultaneously. Make sure that the peak usage of water for
the combined equipment does not exceed the output of your RO system or its
product water storage. See your dealer for advice and parts.
Q: What factors affect the quantity and the quality of the water
produced?
- Pressure: The greater the RO system pressure, the greater the water quantity that will be produced by the membrane.
- Your VectaMaxx™ RSL unit has been equipped with ultra-low energy membrane(s) that are designed to operate at a minimum system pressure of 100 psi. (7.0 kg/cm²) and a maximum of 135 psi (9.0 kg/cm²) for models 2400 and 4800, 140 psi (9.8 kg/cm²) for models 7200 and 9600. Do not attempt to operate your RSL system at pressures exceeding 150 psi, as damage to the membrane or premature fouling may result*.
- The RSLHP units use a brackish water membrane that is rated for 225 psi. All units are designed to operate to a maximum pressure of 250 psi.
- Temperature:
- Production increases with temperature, standard production ratings are established at 25°C. Never operate the system from the hot water line or with water exceeding 35°C, as this will damage the membrane and internal components.
- Membrane type: VectaMaxx™ RSL systems use premium quality TFC (Thin Film Composite) membranes, specially chosen for general commercial applications. Please contact your dealer or Waterite for information on special applications or nanofiltration membranes.
- TDS: The higher the Total Dissolved Solids in the raw water, the lower the rate of output of product water.
Units equipped with an optional CIP are equipped to operate at a maximum of 160 psi (11.3 kg/cm²)
Q: How much water does the VectaMaxx™ RSL system produce?
- The VectaMaxx™ RSL systems use membranes each nominally rated for 2400GPD. Actual output will be dependent upon the factors explained previously. In optimal applications (low feed water TDS, feed water =25°C, you may expect 1600-2200 USG from each membrane to be available over 24 hours.
- The VectaMaxx™ RSLHP units use membranes each nominally rated for 2000GPD. Actual output will be dependent upon the factors explained previously. In optimal applications, feed water =25°C, you may expect 1300-1800 USG from each membrane to be available over 24 hours.
Q: Can the amount of total water produced be increased?
Once the system has been set for optimal operation, the overall water
available for consumption over a set period will be increased by increasing
the storage capacity. This will increase the time available for the unit to
produce water in off-peak hours (instead of standing idle), and more storage
capacity to be available in peak hours when water usage may exceed production
capacity, for short intervals.
Q: What is the standard warranty with the VectaMaxx™ RSL system?
Every VectaMaxx™ RSL and RSLHP system comes with a standard one-year limited
warranty on all parts and shop repair labor, freight excluded. See section 5
in this manual for details on components with limited warranty coverage.
Q: What is the maintenance schedule for the VectaMaxx™ RSL system?
A good rule of thumb is to replace the pre-filter every month in commercial
applications. Consider changing them biweekly when in continuous use or when
used with untreated water sources. Depending upon feed water quality, your
membrane(s) should have a life expectancy of 1-5 years. More severe water
conditions (iron, hardness) may shorten this significantly; soft water sources
may allow a membrane life of up to 8 years. See Section 5.5
Q: When should the membrane(s) be cleaned or changed?
If you notice gradually decreasing production from your system, differing
taste to your drinking water or water analyses indicate a rising TDS, it
probably means that your membrane(s) are deteriorating and losing
effectiveness. You may purchase a pocket or full-featured TDS meter from your
dealer – this is the best way to gauge your RO’s operation.
Where the RO is used as a pre-treatment for a process requiring water to exact
standards, you should adopt a regular ongoing sampling and testing procedure
to ensure compliance, as product water will vary with the quality of the RO
feed water.
Designing your Installation
Your reverse osmosis system is designed to operate with feed water quality parameters that fall in a specific range. The lifespan of the membranes and the ability of the system to produce water in the required volume will depend largely on the feed water that is delivered to the system.
Step 2.1. Start with a Thorough Water Analysis
Every successful installation begins with a full analysis of the raw water
source. Testing should measure the following:
-
Total Hardness: This measures the calcium and magnesium hardness in the water. Hardness over 6 grains/gallon (103 mg/l) must be pre-treated by softening. Failure to do so will cause premature failure of the membrane through lime scaling.
-
Total Iron: Iron is another common membrane foulant. Found in most water supplies, it’s particularly prevalent in supplies drawn from wells. In its ferrous state (Fe+2), it’s soluble. However, when it’s oxidized to its ferric state (Fe+3), it’s insoluble and forms a precipitate. Concentrations in excess of .05 ppm must be pre-treated with an iron remover (concentrations > 2 ppm) or combination softener* (for iron concentrations < 2 ppm); otherwise premature membrane and system equipment failure through iron deposit fouling will result.
-
Manganese: Manganese is a commonly occurring mineral found in groundwater. Manganese will leave black, scaly deposits and will eventually foul membranes in concentrations greater than .05 ppm. Manganese must be treated with a manganese greensand filter, regenerated with potassium permanganate.
-
Hydrogen Sulphide: Most commonly, hydrogen sulfide is known for its “rotten egg” odour. In addition to having an objectionable odour, it is highly corrosive and will damage plumbing and equipment. At lower concentrations (< 1 ppm) it can be removed with a Paterson Iron Remover (air injection). At levels exceeding 1 ppm it will need to be treated with a manganese greensand filter.
-
Nitrates: The presence of nitrates in the water is usually an indicator for other problems with the water source. Nitrates are a by-product of the decomposition of organic material that may include sewage or run-off from septic systems. Surface runoff containing fertilizers will also be high in nitrates. The source of the nitrates should be found and eliminated – feed water should be treated with nitrate-selective ion exchange resins to reduce nitrates to < 5 mg/l.
-
Tannins and Lignin: These are organic materials that are often contained in surface water and shallow well water. Their origin is the natural decomposition of plant matter and tree bark, leaving a brown color ranging from a pale yellow to dark amber. Feed water tannins must be pre-treated to levels < .5 mg/l to avoid membrane fouling. This is usually achieved through the use of organic scavenging ion exchange resin (polystyrene or polyacrylic), regenerated with salt.
-
Chlorine: Feed water should be free of chlorine (< .1 ppm), as TFC membranes are easily damaged by chronic chlorine exposure. This is an important consideration when municipal water is used as the feed water source. Pre-treatment by carbon filtration is very effective for chlorine reduction – carbon eventually becomes exhausted and must be replaced to ensure continuous filtration. If stabilized chlorine is present, size your carbon filter 2 to 3 times larger than for unstabilized chlorine to ensure removal. Consider installing a post-carbon filter test port for ease of sampling.
-
Organic and Microbiological Activity: Raw water sources, particularly surface water, often contain algae and naturally occurring bacteria. Groundwater may contain sulphur or iron-reducing bacteria or may be contaminated with other more
dangerous strains of coliforms or E. coli. These must be treated to avoid contamination or fouling of the pre-treatment systems or membrane element(s). -
pH: Most membrane manufacturers recommend a pH range between 3.0 and 11.0 for the membrane element. We recommend that the system operate at between 5.5 and 9.5, to minimize the effects of extremely acidic or scale-forming water at either ends of the range. Extremes in pH will be harder on your system, either causing premature corrosion on metallic parts or scaling internal components upstream from the membrane, and likely the membrane itself. Keep in mind that reverse osmosis lowers the pH of the feed water, by up to 1.0, depending on the water chemistry. This will be a consideration for the end use of product water and for the vessels and plumbing system that will be used to store and control it.
-
Turbidity: This is the term to describe suspended particulate in the raw water. Turbidity is treated by the sediment cartridges that your RO system has been equipped with. Reduction of turbidity is necessary to avoid fouling your membrane and damaging your drive pump. Make sure that your prefilters are changed regularly and that quality Excelpure 5-micron cartridges are used as replacements. The SDI (silt density index) on feed water reaching the membrane must be kept < 5 to assure long membrane life.
Plan Your Pre-treatment Strategy
- Pre-treating feed water can lengthen the life of membrane elements, improve the quality of the water produced and reduce the amount of maintenance and cleaning a system requires.
- The importance of feed water conditions is evident when you examine how crossflow membranes work. In simple terms, a crossflow filtration system separates an influent stream into two effluent streams – the permeate and the concentrate. The permeate is the portion of the fluid that has passed through the semi-permeable membrane. The concentrate stream, on the other hand, contains constituents that have been rejected by the membrane.
- An inherent advantage of crossflow filtration is its ability to continuously operate in a self-cleaning mode. It’s self-cleaning because suspended solids and rejected solutes are constantly swept away from the membrane surface. Membrane fouling occurs when materials from the feed stream collect on or near the membrane surface and restrict water permeation.
- Fouling may occur as layers of deposition on the surface of the membrane (cake fouling), a hardened layer on the membrane surface (scale), particle insertion into the pore channel or entrance (pore blockage), or chemical attachment of particles to the membrane (adsorption).
- You will note that many of the prescribed treatments for various raw water conditions will be effective in treating more than one problem. Where multiple pre-treatment requirements are necessary, consult with a water treatment professional to design a pre-treatment system that meets the necessary needs most economically.
Use the pre-treatment summary below to prescribe the necessary pre-treatment where your water analysis indicates parameters outside of the recommended range:
Pre-Treatment Summary Chart
Recommended Feed Water Range| Potential Effect| ****
Pre-Treatment Solution
| Waterite Models
---|---|---|---
TDS
< 2000 ppm
| Reduced production rate Increased salt passage| Contact Waterite/ Replace water source| ****
RSL HP
T. Hardness
< 6 grains/gal
(103 mg/l)
| ****
Scaling of membrane surface Reduced production rate
| ****
Automatic Softener
| ****
Fusion² series
Gem series
Total Iron
< .05 ppm
| Reduced production rate Fouling of membrane surface Iron deposits in equipment| Iron Remover (> 5 ppm) Softener (levels < 5 ppm)| ****
FOB series
Tannins
< .5 ppm
| Reduced production rate Fouling of membrane surface| Softener with organic scavenger resin| ****
Gem series
Chlorine
< .1 ppm
| Permanent membrane damage Increased salt passage| ****
Carbon Filter
| Fusion² CF series
pH
5.5 – 9.5
| Internal corrosion Lime scaling in equipment
Plumbing damage
| Replace water source Adjust pH| Call your dealer
Organic or Microbiological Activity
0
| Reduced production rate Fouling of membrane surface Sliming of pre-treatment equipment, odour| UV Disinfection followed by 1 micron filtration
Well chlorination
| Excelite UV Excelpure WellPro
Manganese
<. 05 ppm
| ****
Reduced production rate Fouling of membrane surface
| ****
Manganese Greensand Filter
| ****
Greensand Catalox
Hydrogen Sulphide 0| ****
“Rotten egg” odour Internal corrosion
| Iron Remover (<1 ppm) Manganese Greensand Filter (> 1 ppm)| ****
Greensand Catalox
Turbidity
SDI < 5.0
| Reduced production rate Plugging of membrane Rotary vane pump damage| ****
Multimedia Filter Pre-treatment cartridges
| ****
Nextsand Excelpure
Warning
- TEST THAT THE PRE-TREATMENT SYSTEM IS DELIVERING RO FEED WATER TO THE NECESSARY SPECIFICATIONS BEFORE PLUMBING THE RO SYSTEM ONLINE.
- ALWAYS ALLOW A NEW SOFTENER INSTALLED TO PRE-TREAT AN RO SYSTEM TO START ON THE BACKWASH/REGENERATION/RINSE CYCLE. OPERATE THE SOFTENER OFF-LINE UNTIL WATER RUNS CLEAR BEFORE USING IT TO PROVIDE RO FEED WATER. THIS PROCEDURE ALSO APPLIES TO NEW RESIN BED INSTALLATIONS. COLOUR THROWN FROM NEW RESIN BEDS MAY DAMAGE OR FOUL RO MEMBRANES.
- WATERITE DOES NOT RECOMMEND THE USE OF A GRANULAR CARBON CARTRIDGE IN THE PRE-TREATMENT FILTER HOUSINGS SUPPLIED, FOR THE PRIMARY REDUCTION OF CHLORINE. IT WILL REQUIRE REPLACEMENT TOO OFTEN, LIMIT FLOW RATES AND LIKELY LEAD TO CHLORINE BREAKTHROUGH TO THE MEMBRANE ELEMENT. WE RECOMMEND THAT THIS HOUSING BE RESERVED FOR 5-MICRON OR 1-MICRON SEDIMENT CARTRIDGES, FOR THE REDUCTION OF SUSPENDED PARTICULATE
Plan Your Water System
Using a Pressure Storage Tank and Pressure Switch
Your RO system will produce permeate (product water) at a pressure capable of
pressurizing a bladder tank, though tank recovery time will be limited by the
production rate of the membrane(s). Rates of maximum production water for
Vectapure™ RSL systems are, (feed water @<1000 TDS):
- RSL2400 1.6 USG/min. (6 litres/min.)
- RSLHP2400 1.4 USG/min. (5.3 litres/min.)
- RSL4800 3.2 USG/min. (12.1 litres/min.)
- RSLHP4800 2.8 USG/min. (10.6 litres/min.)
- RSL7200 4.8 USG/min. (18.1 litres/min.)
- RSLHP7200 4.2 USG/min. (15.9 litres/min.)
- RSL9600 6.6 USG/min. (24.2 litres/min.)
- RSLHP9600 5.6 USG/min. (21.2 litres/min.)
For many systems, this rate of recovery will be insufficient in periods of peak usage. It will be necessary for you to provide product water storage in a non-pressurized tank from which you may re-pressurize the water for delivery to your appliances or plumbing system.
IF THE SYSTEM IS CONNECTED DIRECTLY TO A PRESSURE TANK, MAKE SURE THAT A CHECK VALVE IS INSTALLED ON THE PRODUCT WATER LINE BETWEEN THE MACHINE OUTLET AND THE PLUMBING SYSTEM PRESSURE SWITCH, TO ELIMINATE BACKPRESSURE ON THE MEMBRANE(S). FAILURE TO DO SO WILL CAUSE PERMANENT DAMAGE TO THE RO MEMBRANE(S).
If a pressure tank and pressure switch are used for storage, be sure that the pressure switch is capable of carrying the full load amperage of the system. For reference, the motor full load amperages are:
- 230/208VAC 1 PH
- 230/208VAC 1 PH
- RSL2400 8.7/9.4 A
- RSLHP2400 15.0/16.5 A
- RSL4800 8.7/9.4 A
- RSLHP4800 15.0/16.5 A
- RSL7200 10.4/11.5 A
- RSLHP7200 15.0/16.5 A
- RSL9600 10.4/11.5 A
- RSLHP9600 15.0/16.5 A
Consult your electrician to determine the proper sized breaker for your
installation. Other motor voltages are available as a factory option. Consult
with your dealer for availability and pricing.
The pressure switch will be used to turn off the RO unit at the cut-off
pressure and turn it on at the cut-in pressure, in the same way one is used to
control a water well pump. Set the pressure switch to a maximum shut-off
pressure of 50 psi.
Using an Atmospheric Pressure (non-pressurized) Storage Tank and Float Switch
Your VectaMaxx™ RSL RO may be wired to a float control shut-off switch that
shuts the system down when a non-pressurized storage tank is filled. Make sure
that the tank size is selected to provide adequate water storage for your peak
demand period. Keep in mind that atmospheric water storage vessels are subject
to contamination by airborne bacteria – they should include a lid, be
sanitized before use and periodically disinfected. RO product water will have
no chlorine residual and will be subject to contamination at all stages in the
plumbing system. Consider UV disinfection as an inline option for all water
being pumped from the storage tank into the plumbing system. An overflow
bulkhead with a drain line should be installed in the tank above the float
switch water line, and be connected to a floor drain to protect against a
failed level control switch.
If the inlet bulkhead fitting to the non-pressurized tank is below the maximum
water level in the tank, make sure that a check valve is installed in the
product water line between the RO unit’s outlet and the tank inlet. This will
ensure that backpressure from the tank will not damage the membrane(s). To
eliminate this problem, install the bulkhead fitting above the level switch.
Consult your Waterite Commercial RO Systems Price List for information and
availability on a wide variety of water system components including storage
tanks, re-pressurization pumps, bulkheads, tubes, pipes, pressure switches,
fittings, UV disinfection systems and float valves.
Installation
Your system includes:
- The main RO/filter assembly frame with one assembled pre-filter, booster pump, membrane housing(s), flow controls, pressure gauges and flow meters.
- One, two, three or four membrane(s) (in a sealed plastic bag and one 5-micron polypropylene sediment cartridge);
- One sediment filter housing wrench;
- One Owner’s package including owner’s manual and warranty certificate.
Selecting the System Location
- The filter housing will need periodic maintenance – easy access must be maintained. Do not install in a location with high humidity, direct sun or a direct source of heat. Typically, a commercial mechanical room is ideal. Never expose the RO unit to freezing temperatures
- Use the threaded feet at the base of the RO stand to level the unit.
- The unit will need to be installed in a location that has ready access to 230/208VAC power, the feed water line, and near a drain capable of handling the waste flow from the machine.
A Note on Fittings
- Your RO system has been equipped with quality compression and push on fittings throughout. All compression fittings should be hand-tightened and then tightened ¼ turn further with a wrench. Check that all fittings are snug, as they may have loosened in transit. Do not over-tighten as damage may occur to the internal gasket on the sst threaded hose assemblies
- Completing and securing a push-on connection is simple. First, the tubing should be cut square and any burrs or rough edges removed. Insert the tube firmly and push until the tube end contacts the stop. Gently tug the tube backwards to assure a secure connection. To disconnect, pull the tube while pushing in the collet ring. Fittings may be reconnected over and over again, if necessary.
Install the Feed Water Supply Connection
- Inspect the cold water supply line and the condition of the pipe. Ensure that the supply pipe is in good overall condition and can deliver the system’s necessary feed water flow rate. See Section 8 for specified feed water flow rate requirements.
- Turn the water supply line to your plumbing OFF.
- Plumb a connection from the COLD water supply line, ensuring that the feed line is at least ¾” in diameter (1” for RSL 9600 and RSLHP9600). Install a shut off valve on the connection, so that the RO system can by isolated from the main water supply. Note that the inlet connection to your RO system is 1”. We recommend that you also install a pipe union near the RO to allow easy disconnection should it be required for maintenance.
- Make sure the feed water source is a reliable one and will constantly deliver feed water between 40 psi and 60 psi maximum. Your RO system has been equipped with an emergency low pressure shut-off, if the line pressure to your RO inlet falls below 20 psi. This will keep the drive pump from running dry and damage occurring to its internal components.
The RO Controller will wait 60 seconds and try to restart the system. Should it fail to restart – the controller will try again in 60 seconds, to a maximum of 5 times in 10 minutes. If the unit has failed to continue to run then it will go into alarm and will require a power re-set.
Installing the Drain Line
-
A 1/2” poly tube (minimum) should be used for the drain line. Attach the drain line to the ½” fitting on top of the Reject Flow Meter. Position the drain line over the drain and secure it in place. Do not elevate the drain line over 10 feet above the unit. If connection to a sewer line is necessary, check the local code or a plumbing professional for guidance and the required parts. Usually, a trap with a 2” air gap will suffice. For systems equipped with the fast flush option a ¾” drain line should be installed.
ALWAYS MAINTAIN OR INSTALL A 2” AIR GAP ON ALL DRAIN LINES TO PREVENT SEWAGE BACK SIPHONAGE -
DO NOT use a residential septic field for receiving the RO waste from VectaMaxx™ RSL systems. If used to capacity, these systems (depending on the model and settings) will produce between 1670 to 9820 USG (6,336 to 37,440 litres) per day of wastewater and will waterlog septic beds.
RSL24-9600 Only -
Set-up of your RO system will be dependent upon the TDS of your feed water. Make sure that you specify the TDS of your feed water at the time the unit is ordered. The system has been shipped with a Drain Line Flow Control (DLFC) that is intended for feed water of less than 1000 TDS. For TDS above 1000 please consult the parts list at end of this booklet.
-
Make sure that you have the DLFC installed in your system. These orifices have been selected to operate at the correct waste flow rate for your system, at an optimum pressure of 130psi. For systems configured for <1000 TDS, the recovery rate will be a maximum of 60%. For systems configured for >1000 TDS, the recovery rate will be a maximum of 40%.
-
The DLFC (Figure 4) is mounted internally in the coupling on the lower connection of the Reject Flow Meter, and has been designed to give a constant system recovery rate at 130 psi operation pressure, @ 15 C
water temperature. -
If requiring replacement of the orifice plate, the installation is quick and simple:
-
Use Table 1 to find and order the right orifice assembly for the system.
-
DISCONNECT THE POWER TO THE SYSTEM, TURN OFF THE WATER SUPPLY AND ENSURE THE SYSTEM PRESURE HAS BEEN RELEASED.
-
Remove the assembly from the flow meter
-
Remove the locking ring from the collet and retract tubing
-
Remove the fitting attached to the Assembly by pushing the collet towards the assembly while pulling the fitting away from the assembly. (Figure a).
-
Disassemble the fitting by pulling the collet out, removing the o ring, and DLFC. (Figures b and c).
-
Insert the new DLFC so that it faces towards you. Replace the o-ring and the collet back into the fitting.
-
Re-attach the fitting to the flow meter and re-insert the tubing. Re-Install locking clips
RSL MODEL #| Raw Water TDS| Color| Part #
---|---|---|---
RSL-2400| < 1000 TDS| Lime/White| 5878301
> 1000 TDS| Pink| 5861041
RSL4800| < 1000 TDS| Pink| 5861041
> 1000 TDS| Dark Green/White| 5878321
RSL7200| < 1000 TDS| Dark Green/White| 5878321
> 1000 TDS| Lilac/White| 5878361
RSL9600| < 1000 TDS| Lilac/White| 5878361
> 1000 TDS| Grey/White| 5878351
(Above Not required RSLHP units)
A Note on Recovery Rates
- Your VectaMaxx™ RSL is designed to operate at a recovery rate (percentage of product water to total water used) at a maximum of 60% for feed water of <1000 TDS and 40% for feed water with TDS ranging from 1000 to 2000. DO NOT ATTEMPT TO OPERATE THE SYSTEM AT HIGHER RECOVERY RATES, AS THIS WILL CAUSE PREMATURE MEMBRANE FAILURE OR INTERNAL SCALING AND EQUIPMENT FAILURE.
- You may wish to operate your system at lower recovery rates where your dealer has identified water conditions that may stress your membrane or where recommended pre-treatment feed water conditions are not met. You may do so, though this must be accomplished by a combination of increasing the flow of concentrate to waste and reducing the recycle valve flow. This, done in balance, will maintain the overall system pressure at previously stated normal operating pressures.
- Where your system is equipped with flow meters, simply change the DLFC to the desired flow rate (See Step 6-Table 1) and close the recycle valve until the pressure registers normal operating pressure. Using the formula:
Once the new balance has been established at normal operating pressure, you may wish to lock the valve in position by removing the handles by loosening the setscrews located on the valve handle.
Step 3.4. Installing the Filter Cartridge and Membrane (s)
-
Remove the filter housing by turning counter-clockwise with the housing wrench supplied. Remove all protective wrapping from the 5-micron filter cartridge. Insert the 5-micron white sediment filter in the housing and reassemble. The housing is seated with o-rings – DO NOT OVERTIGHTEN – 1/4 turn after hand tight is usually sufficient.
Skip (2.) below if the factory has pre-loaded your membrane elements. -
Remove the wrapping from the membrane element(s). Lightly lubricate the membrane brine seal and all o-rings located in the membrane housing caps with a good quality, silicone o-ring lubricant (do not use petroleum-based lubricants). Disconnect the connections on the membrane housing’s top end cap. Remove the end cap from the membrane housing by loosening the band clamp nuts and bolts. The membrane housing is mounted vertically on the system’s stand. See Figure 1. Insert the membrane element into the housing, so that the brine seal of the membrane will seat at the inlet side of the membrane housing (this is indicated by the direction of flow label on the housing). See Figure 3. Gently push and slowly twist until the membrane product adapter seats snugly inside the housing cap still in place at the bottom of the housing. Re-install the disassembled housing cap – be sure that o-rings do not roll out of their grooves, get pinched or cut. Re-install the band clamp snugly and reconnect the connections to the cap.
-
To remove the membrane from the housing, remove the top housing end cap and gently pull the membrane out of the housing body. You may need to lightly grip the membrane cage with needle-nose pliers to free it from the housing, after extended use. With each disassembly, always check the end cap o-rings and the membrane brine seal to make sure that they are in good condition and are secure in their seating grooves. While the housing is disassembled, clean all components thoroughly to remove any debris or scaling. When re-assembling, make sure that that membrane element is installed with the brine seal facing in the same direction as it was previously. See direction of flow label on each membrane housing.
Step 3.5. Complete the Electrical Connection
- Connect the 14ga. 3 wire cable on the back of the control box to an approved electrical breaker or a disconnect switch.(See Step 4.4 – Figure 5 for main power location)
NOTE : Local electrical codes vary. Check with an electrician for appropriate device connection by local codes. Assure that the power source is rated to the necessary amperage (see page 8) and that the connection meets the local electrical code. See the electrical diagram on page 20.
DO NOT START THE SYSTEM UNTIL STEP 4.5.1 IS COMPLETE
System Controller
RO Controller Set-Up
RO Controller Interface
Standby/ON Switch
Capacitive touch switch. Tank Full LED turns Red to confirm button contact. To
use switch to switch states, hold for 1-2 seconds.
RO Controller Programming
The controller has 3 separate user-selectable sets of settings for configuring
the RO. The factory default settings are shown below. The settings are
identical except for variations in the flush behavior.
- Program 1, No Flush (Standard)
- Program 2, High-Pressure Flush (Optional)
Parameter
| ****
Value
| Program 1| Program 2
---|---|---|---
Tank Level Switch delay (actuation and de- actuation)| ****
Seconds
| ****
2
| ****
2
Pressure Switch delay (actuation and de-actuation)| Seconds| 2| 2
Pretreat Switch delay (actuation and de-actuation)| Seconds| 2| 2
Pump start delay| Seconds| 10| 10
---|---|---|---
Inlet Solenoid stop delay| Seconds| 1| 1
Pump start retry interval (restart delay after LP fault)| ****
Seconds
| ****
60
| ****
60
Low pressure fault shutdown, # of faults | Faults | 5 | 5 |
---|---|---|---|
Low pressure fault shutdown, time period to count | Minutes | 10 | 10 |
Low pressure fault shutdown, reset after shutdown | Minutes | 60 | 60 |
Low pressure timeout fault | Seconds | 60 | 60 |
Flush Behavior | No Flush | High Pressure | |
--- | --- | --- | --- |
Startup Flush: Minutes from last flush | Minutes | 0 | 0 |
Startup Flush: Duration | Seconds | 0 | 0 |
Periodic Flush: Interval | Minutes | 0 | 60 |
Periodic Flush: Duration | Seconds | 0 | 60 |
Shutdown Flush: Time from last flush | Minutes | 0 | 10 |
Shutdown Flush: Minimum operation | Minutes | 0 | 30 |
Shutdown Flush: Duration | Seconds | 0 | 60 |
Timed Manual Run | Minutes | 5 | 5 |
--- | --- | --- | --- |
Timed Manual Flush | Minutes | 0 | 5 |
DIP Switch Settings
RO Program Settings
Switch 1| Switch 2| Program
ON| OFF| 1
OFF| OFF| 2
Starting Up and Flushing the System
- Turn on the feed water valve to the system and check all connections for leaks. Do not proceed further until any leaks are fixed. Water will flow to the pre-treatment housings but will not pass the inlet solenoid (see Figure 3.) until the system has been started. The available line pressure should now register on the line pressure gauge. Purge any air from the pre-filter housing by depressing the red button located on top of the housing.
- Open the recycle valve to the fully open position. For RSLHP models open the Concentrate Reject valve fully open.
- Turn on system breaker/Disconnect switch. Press the ON button.
RSL units: Let the system operate for about 5 minutes with recycle valve fully open
RSLHP units once the pump is running and all air is purged from the system, close the reject valve until you have a flow rate of 5 gpm. Let the system operate for about 5 minutes with recycle valve fully open.
The system is now flushing and clearing any dust or debris from the lines. There should be little or no water production from the machine during this flush.
Operating Pressures
RSL Units
- The RSL systems are designed to normally operate at 130 psi (140 psi for RSL 7200/9600). At this pressure, the proper waste/production ratio is established. Begin to close the recirculation valve slowly until the operating pressure gauge registers 130 psi (9.1 bar) on 2400 and 4800 models, 140 psi for 7200 and 9600 models. DO NOT ALLOW
- THE SYSTEM TO OPERATE IN EXCESS OF 150 PSI AS MEMBRANE AND SYSTEM DAMAGE MAY RESULT.
- You may wish to lock the valves in the proper position by removing the handles to discourage tampering.
- Your system is now set up to operate at its design settings.
RSLHP Units
- The RSLHP systems are designed to normally operate at 220 psi. At this pressure, the proper waste/production ratio is established. Begin by closing the reject valve slowly until the Reject flow is about 3 gpm. Now close the recycle valve slowly until the pressure is at 210 psi. The nominal reject/production flow for these models is 2/3. Adjust both valves until the pressure is stabilized at 230 psi with a 2:3 ratio for flow. DO NOT ALLOW THE SYSTEM TO OPERATE MORE THAN 250 PSI AS MEMBRANE AND SYSTEM DAMAGE MAY RESULT.
- You may wish to lock the valves in the proper position by removing the handles to discourage tampering.
- Your system is now set up to operate at its design settings
YOUR MEMBRANES HAVE BEEN SHIPPED WITH AN ANTI-BACTERIAL PRESERVATIVE. OPERATE THE SYSTEM FOR 1 HOUR AT DESIGN SETTINGS BEFORE BRINGING THE SYSTEM ONLINE TO ENSURE THE MEMBRANE HAS BEEN COMPLETELY FLUSHED. DO NOT USE WATER PRODUCED DURING THIS RUN-IN PERIOD.
System Maintenance
Changing Pre-filter Cartridges
The pre-filter cartridge should be changed, as a rule of thumb, every month,
biweekly in heavy-use applications. This must be done to ensure that the pre-
treatment cartridge allows necessary flow and that suspended particulate is
removed from the feed water.
To change the cartridge, turn off the system’s power and as a safety
precaution, close the water supply to the unit. Repeat Step 3:4 from the
installation instructions above. Thoroughly flush and clean the filter
housings while they are disassembled. Always use Waterite factory cartridges
as replacements.
Monitoring your System Performance
Your system will be operating at its peak performance after about 24 hours of
operation. You should develop a daily log to track line pressure, system
pressure, feed water TDS, permeate TDS, permeate flow rate and waste flow
rate. This will allow you to see any developing performance trends or alert
you to system changes that will require you to intervene. It will also be
helpful for your dealer or Waterite technical personnel to have this
information available to help troubleshoot your system, should it become
necessary. The table provided in the last few pages of this manual (Section 9)
will help you get started.
Auto Flushing your VectaMaxx™ RSL (Optional)
- For TDS above 1000ppm, it is strongly recommended that periodic fast flushing be done to remove sediments and mineral build-ups from the membrane surface.
- An Auto flush system purges high concentrations of dissolved solids out of the system on a time basis. This helps to keep scale and fouling to a minimum.
- An Auto-flush system is a factory-installed option, but can be installed by a qualified field technician. (Waterite P/N RSLAFSH)
Cleaning your Membrane Element
- As your membrane begins to age, it will gradually lose some output performance. This is normal and may result in an overall permeate flow loss of 5% after about 1 year. Your membrane(s) may eventually begin to lose production due to fouling or scaling in its interior. Symptoms of this may be continuously falling production rates or elevated TDS levels in the product water. Do not attempt to operate the system above-specified pressures to compensate for output loss.
- Total Dissolved Solids may be measured by a professional or by use of a simple hand-held TDS monitor. These are available from your dealer.
- The membrane element life will range from 1 to 5 years, depending on the quality of the raw water. See 3.4 Figure 3 for membrane removal and installation instructions.
- If you suspect your membrane element requires cleaning or replacement, contact Waterite or your dealer. Do not attempt to clean the element yourself, as it requires specialized chemicals, procedures and equipment. If you remove your membrane from the housing, make sure that you keep it wet, preferably in a sealed plastic sleeve.
- It is a good idea to always keep an extra membrane(s) on hand to avoid system downtime when cleaning is necessary. Never allow a membrane to dry out (if wet variety) or freeze while in storage.
A Word on your Warranty
- Keep your bill of sale and your warranty certificate, included in this kit. This is needed to claim any parts or repair service during the warranty period. Read the document completely for warranty claim instructions.
- Your VectaMaxx™ RSL system comes with a limited one-year warranty covering materials and workmanship for one year from date of installation, subject to user’s compliance with these maintenance and operating instructions. Membranes are excluded by the warranty and the seller’s responsibility is limited to any warranty carried by the manufacturer.
- It is the purchaser’s responsibility to immediately notify Waterite if defects are detected. Seller shall not be liable for any special, incidental or consequential damages and will at its option repair or replace any defective components. Warranty excludes o-rings, membranes, pre-filter cartridges, freight charges, labor to remove or re-install equipment, use with feed water more than 2000 TDS for RSL standard units/or over 4000 ppm TDS for RSLHP units, use of feed water that does not meet recommended conditions and with system alterations made, without written approval from Waterite.
Troubleshooting Guide
Common Replacement Parts
Part Description | Part Number | Models |
---|---|---|
Excelpure 20” 5 Micron PP Spun Cartridge | PP20B05 | ALL |
Excelpure 20” 1 Micron PP Spun Cartridge | PP20B01 | ALL |
¾” Inlet Solenoid | ROSD220 | ALL |
Low Pressure Cut-off Switch N.O. | FRG22 | ALL |
2 ½” Pressure Gauge, 0-100 psi | LDU10025 | ALL |
2 ½” Pressure Gauge, 0-200 psi | LDU20025 | RSL |
2 ½” Pressure Gauge, 0-300 psi | LDU30025 | RSLHP |
Pre-filter Housing Wrench | HAN13W | ALL |
Recirculation Valve | IVISBFF10 | ALL |
Concentrate Reject Valve | IVISBFF8 | RSLHP |
RSL Drain Line Flow Control – DLFC (see Sec 3.3 Table 1 for sizing) | **** |
RSL
Product Adapter O-ring| N70210| ALL
Membrane Housing End Cap O-ring| N70342| ALL
Pre-Filter Housing O-ring| RKE0013HLB| ALL
Black Max 4040 Membrane, TFC, XLP| BME4040SXL| RSL
Black Max 4040 Membrane, TFC, S| BME4040S| RSLHP
Feed Water Flow Requirements
Installations that have purchased the flush option require a flow of a minimum 10 gpm at 30 psi
VectaMaxx RSL Performance Log
Date| Line| System| Permeate| Feed Water| Pre-
Filter| Fast| Permeate| Waste
---|---|---|---|---|---|---|---|---
| Pressure| Pressure| TDS| TDS| Change| Flush|
Flow Meter| Flow Meter
| | | | | | | |
| | | | | | | |
| | | | | | | |
| | | | | | | |
VectaMaxx RSL Electrical Wiring Diagram
Motor Service factor all units: Amps x 1.30
ALL RSL AND RSLHP UNITS ARE WIRED 230/208VAC 1 PH 60HZ UNLESS OTHERWISE
SPECIFIED
VectaMaxx RSL Feed Water Quality
- Owner:
- Contact:
- Installation Date:
- Ph#
- Serial #
- Dealer:
- Model #
CATIONS
- Barium
- Calcium
- Iron
- Potassium Magnesium Manganese
- Sodium
- Ammonium Strontium
- OTHER
- Total Alkalinity
- Total Dissolved Solids Temperature
- Silt Density Index (SDI)
- Comments:
ANIONS
- Bromide
- Chloride
- Fluoride
- Bicarbonate
- Sulphate
- Nitrate
- Phosphate
- Silica
- Turbidity
- pH
- Total Hardness
Please fax copy to: 204-783-1599
THIS PAGE HAS BEEN LEFT INTENTIONALLY BLANK
WATERITE, INC. Winnipeg, MB
Canada
www.waterite.com
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