FSA GT1-70DI Portable Aquarium RO System User Guide

FSA GT1-70DI Portable Aquarium RO System

WARNING

For correct operation of this appliance, it is essential to observe the manufacturer’s instructions.

I. Before You Begin
Quick Connect Fittings: If you come across a push-fit fitting, you need to firmly push the tubing into the opening until you feel a “click” which signifies that the tubing has pushed through the internal O-ring and is seated correctly. If leaking occurs, it may be due to roughly cut tubing OR the tubing is not pushed in far enough. To remove tubing from push-fit fittings, depress the floating collet (shown in below photo), then pull the tubing out.

NOTE: You will need to remove the plug from the end of the outlet line marked “Drinking Water”. Use the above steps to remove this plug. Do not discard the plug as it is used to seal the drinking water line between use to prevent bacterial contamination.
II. Important Note:
Laws and regulations prevent us from wet-testing these filtration systems prior to sending them out. Therefore, during assembly of these systems they are not pressure tested so it is possible to have a small leak in a connection (which is simply fixed by re-seating the tubing or tightening a fitting). As the filters are dry packed, the systems will require flushing before first use ­ Our systems purposely have the inlet filter disconnected from the membrane so that you can do an initial flush of the pre filters to prevent fouling the membrane with carbon fines. When first flushing the unit ­ remember that this tubing is disconnected and should be aimed into a sink/bucket during the flushing process. When flushing is finished ­ re-connect the tubing to the inlet of the membrane housing (Screw Cap End).

Reverse Osmosis Filtration

I. Overview
The Reverse Osmosis Membrane is the workhorse of any RO system. It is constructed from a wrapped semi-permeable membrane material that uses pressure to separate impurities such as ions, minerals and other larger molecules from the water, carrying them to waste.

*Reverse Osmosis membranes do not have a liter Capacity for filter replacements due to the variables that can make the filter life vary significantly. This is mostly due to the water quality. The most accurate way to test a RO membrane for effectiveness is to use a TDS Meter. TDS meters measure the total dissolved solids in ppm in the water. To test your membrane, get a baseline reading out of your tap (unfiltered water) and then compare that to a reading directly off the membrane (disconnect the tube before it goes into the post filter cartridge). You can expect to get a difference of approx. 90-98% between the readings which indicate that the membrane is functioning correctly. If this % is beginning to drop below 90% it suggests that the RO membrane requires replacement
II. Feed Water Conditions

• Pressure : 50 – 100 psi
• TDS: <1,000 mg/L
• Hardness: <250mg/L
• Iron: <0.02
• Manganese: <0.01
• Temperature: 1°C – 26°C

Installing Inlet Fitting

I. Kitchen Diverter Valve
This fitting adapts to most kitchen taps that have either a 22mm Male Thread or a 24mm Female Thread. There are some taps on the market that are not compatible with diverter valves so please check before purchase. Firstly, unscrew the aerator from your tap. If this exposes a male thread, simply screw the diverter valve straight onto the tap (ensure the black rubber washer is inside the valve). Usually hand tightening is sufficient but gripping tools may be required depending on the tap. NOTE: The knurled section of the diverter valve (top swivel ring) is the part that will tighten, you must tighten this to the tap, not the whole valve. You will know if the diverter has sealed on the washer if you will be able to swivel the valve from side to side but you should feel some resistance. If the valve swivels freely and does not feel secure ­ you may not have added the black washer, the tap thread may be too long (in which case, you can double up using the existing washer from the aerator you just removed) or it has not been tightened enough at the knurled section. If you need to use the thread adaptor to install to a female threaded tap, install the adaptor into the diverter valve first, then install it onto the tap. The Diverter Valve is designed to replace your existing aerator so should be left installed permanently. Below is an example graphic. The tubing is usually supplied connected to the valve but there are instructions below showing this process if required.

II. ¾” Garden Tap Adaptor
The garden tap adaptor is simple, just screw it onto an outdoor tap ¾” thread
III. Washing Machine Block Adaptor
Similar principle to the Kitchen Diverter Valve but this time, you firstly turn off the cold water to your washing machine (lay a towel down for water leakage). Using either your hands or a pair of gripping tools, slowly unscrew the washing machine hose which will begin to leak water due to static pressure. Install the laundry block (large Chrome Fitting) in place (ensure that the washers are used so it seals). If you find that the thread on the adaptor is not long enough ­ remove one of the blocks and steal the washer (only 1 block is required, 2 are supplied for this reason) ­ doubling up the washer is usually enough to provide an adequate seal. You do not need to use thread tape to do the above steps. Once the block is securely installed, use standard white plumbers’ tape to wrap the male thread of the small inline valve supplied with the adaptor ­ you will need to wrap around 8 ­ 10 times. Carefully screw the valve into the female port on the adaptor using a shifter/spanner until firmly installed. While the valve is in the `off’ positing (90° angle to the water flow), slowly turn the cold water back on and check for leaks.

IV. Connecting Tubing Using Compression Fittings
Compression fittings are used in both the Kitchen Diverter Valve & the Washing Machine Adaptor. Rather than an O-ring seal with teeth (like the quick connect fittings), compression fittings crimp the tubing around a stem to seal the water, the compression ring then prevents the tubing from being removed. Inserting the tubing over the stem of the compression fitting can sometimes be difficult as the tubing needs to stretch over it, if you are having trouble, you can run the end of the tubing under warm water (not hot) to help soften the tubing. The below diagram demonstrates how this it to be installed.

System Installation/Start-Up

I. Pre-Flushing
As previously mentioned above, the portable units are assembled with the inlet filter disconnected from the membrane to allow pre-flushing. To pre-flush the inlet filter, firstly plug the tubing joining the inlet valve to the inlet port of the system. Turn on the inlet feed water to maximum, this will flush the pre filter at high pressure to clear out any carbon fines. The water will run black and cloudy for a few moments, shut off the tap and give the filter a shake (To stir up the media) and repeat a few times until the water runs consistently clear. Note: It is best to disconnect the tubing to the DI filter during the initial start up process. This will ensure that the flush water from the new membrane does not load the DI filter with high TDS while it is flushing.
II. Tubing Connections
Following the above flushing process, check your systems fittings and tubing to ensure everything looks sound; there are no kinks, damaged fittings or tubing that is not plugged in. Connect the inlet filter to the inlet side of the membrane (screw cap end). You should have 2 lengths of tubing that are only connected at one end, these lines will be your drain line (waste water) which is connected to the inline valve marked `Drain Line’ of Flow 200/300/400. The other line will be the drinking water line which is the finished product water. Once all tubes are accounted for and everything is in order, start-up can commence.
III. Initial Start-Up
For the first run, it is best to bypass your DI Filter (GT6-22) while flushing the membrane. Allow both the membrane outlet lines to flow to waste into a sink. Turn on the inlet water to the system on full pressure/flow. The Drain line will begin to flow almost straight away which is normal, you may notice some slight discoloration. The membrane water line will take longer to begin flowing, this is due to the water slowly making its way through the membrane. If you have completed flushing the pre filter as mentioned above, you will only need to run your filter system for about 30 ­ 60 minutes with the DI filter disconnected before it is ok to be re-connected & Ready for use.

IV. Using the System
Once the filters have settled and it is ready for use, run the drain line into the sink/drain. Your Aquarium water tube will then run into a container or tank to fill with fresh filtered water. It is recommended to keep the container you are filling in a water safe area ­ for example on the sink top in case of spillage (or more commonly ­ if it overflows because you forget you turned it on) so you don’t come back to a flooded room. A handy tip is to use a timer the first time you use the unit and note how long it takes to fill your desired storage container.
V. After Use & Storage
When the system is no longer in use, replace the plug back into the drinking water line to prevent bacteria. The drain line can be left open as there is no chance of backflow or contamination on this line. The system can then be stored away in a cabinet ­ if you have a plastic container or tub to put it in it is ideal to prevent any water leaks.
VI. Long Periods of no use
If the system has been in storage for longer than a few days, it is best to run the unit for 15 minutes before collecting the water. Bacterial contamination is not usually an issue with intermittent use but is possible after over a month of storage. If there are any smells, tastes or changes to the water quality it is best to replace the filter cartridges and start fresh to avoid any possible issues.

Maintenance

I. Sanitation
Due to the open circuit’ nature of the portable systems, it is possible for bacterial contamination to occur over time. Tubing may need to be sanitized or replaced along with the fittings. The membrane housing (Which is one of the only parts that doesn’t get replaced) can be cleaned using warm soapy water and then soaked in diluted HydroSil-ULTRA with water. Rinse off the excess HydroSil and then re-connect. **II. Replacement Parts** As mentioned above, tubing and fittings should be periodically replaced to ensure the system remains clean and functional. There is no set time frame for these items to be replaced, rather you can monitor them ongoing and if they appear to be at their end of life, change them. As a general guideline, Tubing (inlet, outlet and drain) should be replaced every 2 years. Fittings should be replaced every 3 years (due to wear and tear). **III. Replacement Filters** As portable systems are made up from predominantly inline filter cartridges, when you replace the filters you are getting almost a completely newsystem’ as only the tubing and fittings + some other things remain. Filters have a varying life time but generally can be replaced with the following principle; Pre filters (Pre-Membrane) every 6 months. As this is a DI filter system, you will need to monitor the TDS of both the membrane water & DI filter ongoing to determine when it needs replacing. The membrane itself has a largely varying life time. It may last anywhere between 1 and 4 years depending on usage, water quality and age.
IV. Testing Filters
Reverse Osmosis membranes have a variance in their filter life and this is affected by several things including water quality, usage, temperature and filter maintenance. As they are the workhorse of the system, they are the most important filters to monitor and keep maintained.
To measure the effectiveness of the RO membrane you will need a TDS/EC test meter. Draw a sample of tap water (to get your base reading), then collect a sample of water directly off the membrane outlet (before it goes through any other filters). This is your pure’ water. To calculate the membrane effectiveness, you will need to subtract the percentage of contaminant reduction from the feed water. E.g. Feed Water 200mg/L TDS ­ RO Membrane removes 97% (+/-) Therefore, 200 ­ 97% = 6mg/L. Factors can influence the final TDS of the water and it will depend upon what is in the feed water to begin with. A membrane is deemed to beexpired’ if the overall reduction rate is <90% (as a general rule). To apply this to the above example, 200 ­ 90% = 20mg/L. So, if your test reading was approaching 20mg/L or higher, it would be time to change the membrane.
For testing the DI filter, use your baseline reading from above. The DI filter should reduce the water to <1 TDS. Replace the DI once it exceeds your desired level.

Troubleshooting

connections by firmly pushing them into the fitting. Check that there are no kinks or any obvious issues. If the problem persists, remove the tubing and check for a clean cut with no burs. Push the tubing back in and try again. If this does not work please contact customer support.
Water Leaking Between Fitting & Filter| Fitting not tight enough / Insufficient Thread Tape / Damaged Fitting or Filter| If the fitting appears to be not fully tightened, gradually tighten the fitting to see If this fixes the leak. If this does not work, remove the fitting and check for any signs of damage either on the fitting or the female port of the housing. If there are no obvious signs of damage, apply white plumbers’ tape. Use 6 rounds for 1/8” fittings (membrane housing fittings) and 8 rounds for all other ¼” fittings.
Water Is Leaking from My Diverter Valve|

1. Damaged/Missing Washer
2. Not Tight Enough
3. Thread is too Short

|

1. Check the diverter valve to see if the washer is inside, if it is damaged it may need replacing – this is a common size washer and can be purchased from most hardware/plumbing stores.
2. If the diverter valve is loose (or you can easily swivel the fitting without resistance, the fitting is not tightened enough. It may feel like you can’t tighten it anymore and it just keeps spinning but if you use a gripping tool (multi grips) to grab the collar of the fitting and use your hand to hold the valve itself steady, you will be able to further tighten the valve. The valve is tight enough when you feel light to moderate resistance when trying to swivel the valve.
3. If you screw the valve on and the collar ‘bottom’s out’ on the tap, you may need to add another washer (to bulk up the space).

The unit is not producing any water?| 1.  Water Supply is off or disconnected.

2.  Pre-Filter has a blockage

|

1. Turn on the water supply and ensure there are no obstructions to the water flow.

| 3.  Insufficient Water Pressure

4.  Plug Still Installed

| 2.   Disconnect the tube between the membrane and pre-filter (like the pre-flushing instructions) and run water at full pressure to see if water comes out of the filter. – If the water does not come out (or is very weak pressure) the filter may need to be changed.

3.   Reverse Osmosis required 50psi (Minimum) to operate – 70psi+ is ideal. If you have lower than 50psi pressure this unit may not be suitable for you. Low Pressure Membranes are available for an additional charge that will work down to 20psi.

4.   Remove the plug from the drinking water line.

Water is coming out slowly| Reverse Osmosis| RO filtration is a slow process, depending on the system you have purchased, you will only get about 8 – 12L of water per hour.
I am getting much more waste water than filtered water|

1. Water Pressure
2. Water Quality
3. Blockage

|

1. Our units are designed to run at approx. 1:1 – 1:1.5 waste water ratio at 70 psi. If your pressure is lower than 70 psi, the production rate may decrease and cause more drain water than filtered water
2. If your inlet water quality is poor and contains higher salts and hardness the filter may produce lest water than the specified amount.
3. If you have good pressure, and average water quality it is possible there is a small blockage somewhere in the system. Try to follow the water flow along the system, disconnecting 1 tube at a time to try and pinpoint where the water is ‘stopping’

High pH Reading|

1. Insufficient Testing Equipment
2. Wrong Configuration

|

1. pH testing equipment can range from a cheap test pen right up to lab grade equipment. Before coming to a conclusion on pH issues, it is best to ensure the equipment used to measure the pH of the RO water is of high standards and suitable for reading pH levels in low EC water (i.e. The guy at the pool shop is not going to cut it). We have access to high quality testing equipment and frequently test our units and conduct research. If you feel that there is an issue with your pH, please contact us.

| | 2. Check that the system is connected as per the schematic

diagram on the rear of this manual.

Hot Water has been run through the filter| | Reverse Osmosis units are designed for cold water only. If you accidentally run hot water through the membrane for a short period of time, it may still undamaged. What will happen in the pore size in the membrane will expand and allow more contamination through. Run the unit on cold water for 15 minutes and test to make sure there is no

issues.

Replacement Filters & Parts

Cartridges

GT6-21S| Inline Activated Carbon Filter (Pre-Filter)| 6 Months
GT5-12S-350| Refill bag of DI Resin| As Required
GT13-59-ALP| 50GPD Reverse Osmosis Membrane| 1 – 4 years Fittings: (TDS Testing Required)
Fittings
GT10-22LS| ¼” Male x ¼” Tube Fitting|
GT10-23LS| ¼” Male Elbow x ¼” Tube Fitting|
GT10-2LS| 1/8” Male x ¼” Tube Fitting|
GT10-13LS| 1/8” Male Elbow x ¼” Tube Fitting|
Valves
GT25-3S1/4| Kitchen Tap Diverter Valve ¼”|
GT25-15| Male x Male Thread Adapter 22 – 24mm|
GT13-1S| 200CC Flow Restrictor ¼”|
Housings
GT8-31| 1812 Membrane Housing|

Diagrams

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2. Check that the system is connected as per the schematic diagram on the rear of this manual. Reverse Osmosis units are designed for cold water only. If you accidentally run hot water through the membrane for a short period of time, it may still undamaged. What will happen in the pore size in the membrane will expand and allow more contamination through. Run the unit on cold water for 15 minutes and test to make sure there is no issues.
6 Months As Required 1 ­ 4 years (TDS Testing Required)

General Warranty

Water Filter Systems¹ (Excluding consumables) Manufactured or Assembled² by Filter Systems Australia (FSA) are covered under a 12-month Warranty Against Defects (Manufacturer’s Warranty). This warrants the water filter system to be free from defects in material and workmanship for a period of 12 months from date of sale.
If applicable, FSA may cover the return freight in the form of a re- imbursement after the system has been inspected and confirmed it is a valid warranty claim.
FSA will not cover any labor charge incurred by the consumer for the replacement or repair of a product. The warranty is strictly parts only for the parts supplied by FSA. This warranty only applies to the original consumer of the product and is non-transferable. If you have purchased the system through a re-seller, please contact them to facilitate the warranty on your behalf. All replaced or exchanged parts become the property of FSA.
FSA does not cover the workmanship of the plumber who originally installed the system. Responsibility for damages that occur during installation fall with the plumber.

Qualification for Warranty

These systems are designed to be installed on existing tap connections. A plumber is not legally required for this type of installation unless a new tap or water outlet is required. The system is compliant to WaterMark AS/NZS 3497 and therefore is compliant with permanent installation ­ however the units are not designed to operate that way.
Filter systems must be maintained as per FSA recommendations³ including the use of replacement filters, fittings and components supplied by FSA. Failure to maintain the filtration systems using FSA supplied/approved products may void warranty.

The warranty only applies if the product was used and/or installed in accordance with the user guide and/or installation instructions. This warranty is given in lieu of all other express or implied warranties and manufacturer shall in no circumstance be held liable for damages consequential or otherwise or delays caused or faulty manufacturing except as excluded by law.

Warranties need to be approved by FSA to ensure the product was not incorrectly used, installed or claimed. False and incorrect claims will be pursued at FSA’s discretion including chargeable inspection and transit costs incurred.
FSA does not take responsibility for retaining customer records, it is the consumer’s responsibility to retain all invoices or proof of purchase from the original sale and ongoing maintenance records as proof of upkeep.

Warranty Exclusions

FSA Standard Warranty shall be void if the product sustains damage or failure resulting from any of the following:

• If your system(s) fails to be maintained in accordance with recommended servicing and as per the manufacturers operating instructions.
• Unauthorized or abnormal use or operation.
• Exposure to unsuitable environmental conditions*.

Warranty ­ Australia

This warranty is given by Filter Systems Australia (Jacknel Pty Ltd ATF The J & N Family Trust). ABN 64 855 305 562 Located at 1/38 Jade Drive, Molendinar QLD 4214. Ph 07 5597 4585 & email info@filtersystemsaustralia.com.au
This warranty is provided in addition to other rights and remedies you have under law. Our products come with guarantees which cannot be excluded under the Consumer Guarantees Act.
Definitions
¹ Water Filter Systems are defined as systems designed for drinking water under our Water filter Systems, Reverse Osmosis Systems & Ultraviolet Sanitation Categories ­ Excluding Cartridges and Shower Filters.
² Other products not manufactured or assembled by FSA are covered under the applicable manufacturer’s warranty.
³ FSA specifies recommended or required filter maintenance ­ see product information for further details. If a maintenance schedule is not specified, filter maintenance is required at least once per 12 month period.

• Unsuitable environmental conditions include but are not limited to; Excessive hot or cold, Weather extremes.

Extended Warranty

Filter Systems Australia RO Portable Systems are eligible for an extended 4-year warranty (commencing no later than 12 months from sale date), to provide a total warranty of 5 years. This extended warranty is subject to terms and conditions outlined below. This extended warranty covers the below parts of the system.

• GT8-31 Reverse Osmosis Housing
• GT8-0S Twin O-ring White Housing (GT1-39 Models Only)
• GT8-38S Twin O-ring Clear Housing (GT1-39 Models Only)

The following components are also eligible for an extended 12-month warranty (commencing no later than 12 months from sale date), to provide a total warranty of 2 years. This extended warranty covers the below parts of the system.

• GT25-3S1/4 Diverter Valve
• GT10-31-DM DMfit ¾” Outdoor Tap Adaptor
• GT15-33S ¾” Laundry Block Adaptor
• GT14-2LS ¼” Inline Brass Tap
• GT13- 200/300/400 cc Flow Restrictor GT13-73LS 600cc Manual Flush Valve (GT1-39 Models Only)

Extended Warranty Qualification

Extended Warranty is valid only if the following conditions are met:

• All conditions under “Qualification for Warranty” are met.

• The System was installed in accordance with the manufacturer’s instructions

• The system was maintained in accordance with FSA recommendations in Maintenance – Section II & III.
  Replacement Cartridges.

  • Cartridges must be purchased through FSA or participating supplier/reseller of FSA products
  • Proof of purchase for replacement filters required

Definitions

¹ Water Filter Systems are defined as systems designed for drinking water under our Water filter Systems, Reverse Osmosis Systems & Ultraviolet Sanitation Categories – Excluding Cartridges and Shower Filters.
² Other products not manufactured or assembled by FSA are covered under the applicable manufacturer’s warranty.
³ FSA specifies recommended or required filter maintenance – see product information for further details. If a maintenance schedule is not specified, filter maintenance is required at least once per 12 month period.

• Unsuitable environmental conditions include but are not limited to; Excessive hot or cold, Weather extremes

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