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Water Treatment for Dummies PDF
Water Treatment for Dummies PDF
Water Treatment For Dummies: WQA Special Edition is a consumer-directed publication designed to answer common questions about the quality of water in your home or business. Under 50 pages in length and written in a simple, jargon-free style, Water Treatment for Dummies will give you a basic understanding of how to identify and solve water problems in a cost-effective manner. The electronic version of this publication is available at no charge courtesy of WQA, a not-for-profit organization representing the residential, commercial and industrial water treatment industry.
WQA offers two convenient options for accessing this valuable publication:
- Ready to read right now? Click here to open Water Treatment for Dummies as a digital flipbook.
- Want to save it for later? Click here to download Water Treatment for Dummies as a PDF file.
RO Membranes FAQs
What is the difference between Thin Film & CTA Membranes?
CTA (Cellulose Triacetate) membrane is a paper by-product membrane bonded to a synthetic layer. CTA membranes are made to allow contact with chlorine in the water. These require a small amount of chlorine in the water source to prevent bacteria from forming on it. CTA membranes have a rejection rate of 85-95%.
TFC (Thin Film Composite) membrane is made of a a synthetic material, and requires chlorine to be removed before the water enters the membrane. Chlorine will cause irreversible damage to a thin film membrane element - for this reason, carbon filters are used as pre-treatment in all residential reverse osmosis systems using TFC membranes. A Thin film membrane has a higher rejection (95-98%) and longer life than the CTA membrane.
Can Thin Film RO membranes tolerate chlorine?
Chlorine will oxidize the surface of thin film composite polyamide membranes, causing the membrane to lose its ability to repel or reject salts.
Thin film membranes can tolerate up to 1000 ppm-hours of chlorine. Traces of metals will accelerate oxidation. Therefore chlorine should be removed from the RO feed water.
What is the difference between tap & brackish water membranes?
There is no difference in the membrane material. Brackish water membranes have an outer shell of fiberglass whereas Tap water have a tape wrap. The construction allows Brackish water membranes to be operated at higher pressures required to treat brackish water.
What are the differences of different brands of membranes?
What are the differences of different types of membranes? Are all membranes of the same type (e.g. TFC) from different manufacturers the same? (example: an oil filter by Toyota is different from that of Mitsubishi).
You are right. These are very similar in construction and performance. Like other products, the main difference is in the reputation and reliability of the manufacturer. However, because there are different manufacturers, membranes do come in several end type configurations depending on the manufacturer. When ordering vessels, you will need to specify what brand of membrane you plan on using so the appropriate end adapters can be built in. When replacing membranes with a different brand, you should check the membrane specifications to make sure the end configuration is compatible for direct replacement.
What is the difference between the different flow res membranes?
Question: Why is the performance different in different flow rated residential membranes? (24 gpd, 36 gpd, 100 gpd, etc.) The membranes look the same even the number of times rolled up.
Answer: The useful area of the membrane material is different in the two sizes. They look the same because of the difference in membrane area is made up by other fabrics.
What is the difference between dry and wet membranes?
When the thin-film membranes are manufactured they are dry. These dry membranes have an indefinite shelf life, when stored properly. Membranes become wet when they are flushed or tested with water. Once wet, the membranes can not be dried. The wet membranes must be preserved to prevent the growth of micro-organisms on them. This is done usually by using a 1-2% solution of sodium metabisulfite. For more details look for information on storing membranes.
Proper storage conditions & shelf-life for membranes.
Membrane Storage
-
Store membranes in a cool area out of direct sunlight. Membrane storage temperature limits are 22°F-113°F (-5.5°C to 45°C)
-
Preserve in a solution of 2% AM-88 Membrane Preservative, and 20% AM-225 Glycerine. This will not prevent freezing below 32°F, but the crystals are soft and the membrane is not damaged.
-
Keep new elements in original packaging.
-
Examine the preservative in preserved elements every 3 months. If not clear, remove and re-preserve. The pH of the preservative should not drop below 3.
-
Storage time for preserved elements is 6 months to 1 year.
-
Storage time for dry (new) elements is unlimited, and these can withstand temperatures below 22°F.
Membrane Shipping
-
Preserve the element in the plastic bag using the recommended procedure. Make sure the plastic bag does not leak and the element is properly identified.
-
Make sure the preservative solution is correctly labeled.
-
Protect the element package from physical damage.
System Shut-Down
-
Clean the membranes in the system using the cleaning procedure.
-
Circulate the preservative solution.
-
Shut down the system and close valves to prevent air entering the system.
-
Check preservative once a month
Chemical Injection (Antiscalant) FAQs
What is the dose rate and method of injection for Flocon?
Dose Rate
The amount of Flocon required to inhibit scale formation depends on the degree of supersaturation of the insoluble salts at the point of highest concentration in the system. The degree of supersaturation in turn depends on the concentration of the ionic species in the feedwater, the overall salinity of the feed, the temperature of the feedwater, the percentage of the feedwater recovered as permeate and the type of membrane used for the application.
| FLOCON Solution Concentration* % | Amount of Solution to be Injected per 1,000 Gallons of Feed Water, In Gallons | |
3 ppm |
5 ppm |
|
|
100 |
0.003 |
0.005 |
|
50 |
0.006 |
0.010 |
|
20 |
0.015 |
0.025 |
|
10 |
0.030 |
0.050 |
* Use soft water or RO permeate to mix with Flocon.
Dose Method
Flocon should be added to a membrane system prior to the final cartridge filter. If media filtration or activated carbon is used, Flocon should be applied after these treatment stages.
Flocon should be delivered by dosing pump from a dilution tank, direct from the drum or from a bulk storage facility, into the feedwater at a rate that is determined by the size of the membrane system, the recommended dose rate and the delivery range of the dosing pump. It is recommended that the dosing pump be adjusted by the stroke length, while maintaining stroke frequency at a high level as possible to achieve even distribution of the Flocon in the membrane system feedwater.
CAUTION - Biological Activity:
Flocon contains a preservative that is effective up to a dilution of 1 part Flocon to 15 parts of system permeate water. General periodic cleaning of the dosing system is recommended as part of the planned maintenance program.
Do Antiscalant & AM-88 have a chemical reaction?
Antiscalant (organo-posphonate) and AM-88 (sodium meta-bisulphite for dechlorination) are sometimes both used for pretreatment.
There is no chemical reaction between the two chemicals.
Can excessive Antiscalant foul the membranes?
Excessive antiscalant can cause fouling of the membrane. This fouling can be cleaned by flushing the membranes with water at a pH of 2-3.
How does antiscalant work for a reverse osmosis water treatment
An antiscalant is a pretreatment injected into the feedwater before the feedwater enters the RO membranes. Its presence delays the reaction between calcium magnesium and bicarbonate. This results is scale not forming as the water is being purified by the RO. As the duration of the water in the membrane system is relatively short during the treatment, scale formation is prevented.
Click here for more details and ordering information on Antiscalant
Commercial RO Systems Membranes FAQs
What is the difference between element & system recovery?
Element recovery: This refers to a single membrane element recovery rate. Element recovery = Permeate flow rate of single element / feed flow rate to the single element x 100%.
System recovery: This refers to a cumulative recovery rate. System recovery = cumulative permeate flow rate of membrane elements in a system / feed flow rate to the system x 100%
For example: Suppose there are two parallel pressure vessels and each pressure vessel contains 6 membrane elements. Feed flow to the system is 100 gpm. Since there are two pressure vessels in parallel, feed flow to each vessel is 50 gpm. The first element in each vessel would see 50 gpm of feed. Suppose the first element produces 5 gpm of permeate water and the whole system produces 50 gpm of permeate water. Then, the first element recovery = 5 gpm / 50 gpm x 100% = 10% while the system recovery = 50 gpm / 100 gpm x 100% = 50%
How do I know when to replace elements?
Determining when to replace elements is dependent on the type of problem, whether they are fouled, scaled, or damaged.
Fouled or Scaled Elements
Thin Film membrane elements can be very effectively cleaned due to their tolerance for wide range of pH and temperature. However, if cleaning is delayed, it becomes increasingly difficult to remove foulants or scales from the membrane surface. Cleaning will be more effective if it is tailored to the specific fouling problem.
Knowing when to replace them is dependent upon what you can tolerate. If your system cannot meet the water quality and/or permeate flow specifications even though you change operating conditions or cleanings do not restore the performance, then it is probably a time to replace the membranes.
Some foulants/scales are nearly impossible to clean off: e.g. aluminum, oil, grease, calcium, barium, or strontium sulfate scale, calcium phosphate. So if an element is fouled or scaled with these, it will need to be replaced.
Oxidized or Mechanically Damaged Elements
Such elements cannot be restored as the membrane has been irreversibly damaged. The elements need to be replaced. Elements with moderate telescoping may be still usable.
What is shimming?
The placement of shims on the adapter within the vessel minimizes movement of the individual membrane elements is called "shimming". This reduces wear-out and mechanical abrasion and subsequent o-ring leakage.
Will membranes operate at a temp. greater than 45°C (113°F)?
Thin Film Membrane Elements are not designed to support the temperature higher than 45°C (113°F). It does not mean that the elements cannot exceed the maximum temperature limit of 45°C. However, a greater potential for element damage exists as the temperature increases above 45°C, and the warranty is void. In order to operate or clean at high temperatures, high-temperature or heat-sanitizable elements with different materials of construction are recommended. We currently offer FilmTec heat-sanitizable elements that can be heat-sanitized up to 85°C (185°F).
Troubleshooting Tips for Commercial RO Systems
Loss of salt rejection and loss of permeate flow are the most common problems encountered in reverse osmosis (RO) and nanofiltration (NF). Plugging of the feed channels associated with pressure drop increase is another typical problem. If the rejection and/or the permeate flow decreases moderately and slowly, this may indicate a normal fouling which can be handled by proper and regular cleaning.
An immediate decline in performance indicates a defect or misoperation of the plant. In any case, it is essential that the proper corrective measure is taken as early as possible because any delay decreases the chance of restoring the plant performance – apart from other problems that might be created by an excessively low permeate flow and/or too high permeate TDS.
A prerequisite for early detection of potential problems is proper record keeping and plant performance normalization. This includes proper calibration of all instruments. Without accurate readings it might be too late before a problem is detected and corrected.
Once a performance decline has been identified, the first step in solving the problem is to localize the problem and to identify the cause(s) of the problem. The first step is to evaluate the performance and the operation of the system. This can be done using the data of the record keeping logsheet or of some additional on-line measurements. Then some checks and system tests should be made. If the system data is not sufficient in determining the cause(s) and to recommend corrective action, one or more membrane elements must be taken from the plant and analyzed. Element performance analysis includes non-destructive and destructive analysis. Finally, corrective measures are taken to restore the plant performance and to avoid future problems.
What system recovery should I run at?
A general rule is the system can be operated at recoveries of 50% for single stage, 75% for two stage, and 80-85% for three stage systems. % recovery is defined as the ratio of permeate flow to feed flow rate. Parameters such as operating temperature, source of feed, composition of feed, feed concentration, and pH can have an effect on the overall % system recovery and % recovery of individual element. In all cases though, % system recovery is often set to maximize permeate flow while preventing precipitation of super-saturated salts within the membrane system.
What is pressure drop and why is high pressure drop problematic?
Pressure drop is the loss of pressure from the feed end to the concentrate end of a module or a pressure vessel. Under normal operation condition, the pressure drop for a commercial RO membrane element is about 4 to 5 psi (0.3 bar) per element.
(Typical pressure drop through a new home drinking water element is 1 psi at 50 psi feed pressure.)
Pressure drop increases with the extent of fouling. A high pressure drop is problematic because it may lead to telescoping and inefficient operation, and thus a decline in system performance. The maximum allowable pressure drop is 60 psi (4 bar) per 6-element array.
How long can I expect commercial membranes to last in my system?
Membrane life is a function of feed water source, pretreatment, frequency of cleaning, system design, and operating conditions. For economic analysis, a 5 year life is normally used.
General RO Questions
How do I determine the flow rate in my home?
Visit our Flow Rate and Sizing Guide for detailed instructions.
If you need to figure out the flow rate in gallons per minute of a steady flow in to a holding tank, or open discharge: To estimate the flow rate of water into your home:
• Make sure no water is running in the house
• Use the faucet closest to the water source (pump, tank or pipe)
• Open the faucet completely and measure the time it takes to fill a one US gallon container
• Divide 60 seconds by the time it took to fill the container flow rate
• EXAMPLE: If it takes 20 seconds to fill a 1 gallon container, the flow rate is 3 gallons per minute.
Can an RO System achieve 100% recovery or 100% separation?
No, 100% separation is not possible with thin film composite membranes. Also, 100% recovery is not possible with thin film composite membranes. With thin film composite membranes, there are always three streams (feed, concentrate, and permeate). As the permeate water is being produced, the feed water is being concentrated, but it can not be separated 100%. Also, since there is always a concentrate stream, 100% recovery is not possible. Percent recovery is defined by permeate flow rate divided by feed flow rate x 100%.
Do RO membranes reject antimony, arsenic, lead, and thallium?
Some general guidelines are given below, but need to be verified by pilot testing for each situation. Rejection of lead by thin film RO membranes has been reported to be quite high, >99%.
The rejection of arsenic depends on its oxidation state. The +3 acid, arsenious, is not rejected particularly well in neutral solutions, 70 to 90%, but is well rejected as the pH approaches or exceeds 9.2. The +5 arsenic acid is well rejected in neutral solution.
What is the difference between NF & RO?
Nanofiltration is a membrane liquid separation technology that is positioned between reverse osmosis and ultrafiltration. While RO can remove the smallest of solute molecules, in the range of 0.0001 micron in diameter and smaller, nanofiltration (NF) removes molecules in the 0.001 micron range.
NF is a poly piperazine amide membrane and is essentially a lower-pressure version of reverse osmosis where the purity of product water is not as critical as pharmaceutical grade water, for example, or the level of dissolved solids to be removed is less than what is typically encountered in brackish water or seawater. As such, nanofiltration is especially suited to treatment of well water or water from many surface supplies.
Nanofiltration is used where the high salt rejection of reverse osmosis is not necessary, and yet NF is still capable of removing hardness elements such as calcium or magnesium. Sometimes referred to as "membrane softening", nanofiltration is an attractive alternative to lime softening or sodium chloride zeolite softening technologies. And since NF operates on lower pressure than does RO, energy costs are lower than for a comparable RO treatment system.
What filter pore size is recommended as pretreatment in a RO system?
Most commonly a filter with a micron-rating of 5 micron absolute. With high levels of colloidal silica, lower micron-ratings are advisable.
Will Iron Damage an RO Membrane/System?
Yes. Iron is not effectively flushed from the membrane during the reverse osmosis process, and will build up and clog the membrane. Water containing more than 1ppm of iron should be treated to remove the iron before it reaches the RO system.* Trace amounts of iron (up to 2 ppm) can be removed using a water softener. Greater concentrations of iron require removal by a pyrolox or manganese greensand filter.
Does RO Waste Water Down the Drain?
reverse osmosis membrane, and that cannot be removed by conventional filtration.
Our Reverse Osmosis systems use an automatic shut-off valve, which shuts off the feed to the system as soon as the tank is full. This prevents water from flowing down the drain when the system is not in use.
Our Reverse Osmosis systems use an automatic shut-off valve, which shuts off the feed to the system as soon as the tank is full. This prevents water from flowing down the drain when the system is not in use.
What happens to the impurities that are removed from the water?
The RO Membrane separates the pure water from the impurities, and the impurities are washed down the drain. Unlike conventional filters, RO membranes are self-cleaning. As the water flows through the membrane, good water is forced through the membrane and into the permeate tube, and the rejection water stream flushes the rejected impurities out of the membrane, to the drain.
Why is the pH of RO permeate lower than the feedwater pH?
The pH of water depends on the amount of dissolved carbon dioxide and alkalinity. RO membranes remove alkalinity but not carbon dioxide. The permeate has much lower amount of alkalinity and the same amount of carbon dioxide as feed. This combination of low alkalinity and the same amount of carbon dioxide creates a lower pH in permeate than the feed.
Does RO Remove Parasites, Cysts, Bacteria Or Cryptosporidium?
No health claim can be made due to uncontrolled issues such as regular maintenance. However, these items are too large to pass through the thin film RO membrane. NSF has a rating of 1 Micron for reduction of Giardia Cysts and Cryptosporidium is 1 micron. Thin Film Film Reverse Osmosis Membranes filter down to 1/10,000 of a micron.
Is RO Better than a Faucet or Pitcher Filter?
Most faucet and pitcher filters on the market use granular activated carbon to remove chlorine, taste and odor from the water. While this will improve the taste of the water, it does not remove any dissolved solids or the majority of contaminants that are removed by the reverse osmosis membrane.
Our reverse osmosis systems incorporate carbon filters as pre and post treatment for the reverse osmosis membrane.
What is TDS?
Total Dissolved Solids (TDS) are the total amount of mobile charged ions, including minerals, salts or metals dissolved in a given volume of water, expressed in units of mg per unit volume of water (mg/L), also referred to as parts per million (ppm). TDS is directly related to the purity and quality of water and water purification systems.
"Dissolved solids" refer to any minerals, salts, metals, cations or anions dissolved in water. This includes anything present in water other than the pure water (H20) molecule and suspended solids. (Suspended solids are any particles/substances that are neither dissolved nor settled in the water, such as wood pulp.)
In general, the total dissolved solids concentration is the sum of the cations (positively charged) and anions (negatively charged) ions in the water.
Parts per Million (ppm) is the weight-to-weight ratio of any ion to water.
What is Reverse Osmosis?
Reverse osmosis is a membrane separation process in which feed water flows along the membrane surface under pressure. Purified water permeates the membrane and is collected, while the concentrated water, containing dissolved and undissolved material that does not flow through the membrane, is discharged to the drain.
The key requirements of Reverse Osmosis process are a membrane and water under a pressure. Other requirements include prefiltration to remove suspended impurities and carbon to remove chlorine (damages the membrane).
Most membranes remove 90-99+ % of the dissolved impurities depending on the impurity and the composition of water.
Reverse osmosis systems remove salts, microorganisms and many high molecular weight organics. System capacity depends on the water temperature, total dissolved solids in feed water, operating pressure and the overall recovery of the system.
What type of pretreatment does RO need?
Typical pretreatment consists of:
- Coarse filtration (~80 micron) to remove large materials - City water has typically been filtered to meet this standard.
- Hypochlorite addition to reduce biofouling potential – City water has typically been treated by chlorine or chloramines for this purpose.
- Fine filtration using multimedia filters or clarification.
- Carbon Filter or Bisulfite addition to reduce remove residual free chlorine.
- Water Softener or Antiscalant to remove hardness and prevent scaling.
- Cartridge 5 Micron Sediment filter upstream of the feed pump and membranes Additional pretreatment considerations: Water with higher particle contents, measured by silt density index (SDI), require a higher degree of pretreatment to achieve acceptable quality. Systems using groundwater as the feed source frequently operate without hypochlorite and bisulfte addition. Waters with high hardness may require softening and/or acid addition. Activated carbon may be needed for water with high organic content.
Is RO water too pure for use in my espresso machine?
I am using RO water for our espresso machine. Is it possible that the water may be too pure to allow the electric steam generator level controller to operate successfully?
Pure water will not conduct electricity. For this reason if your steam generator level controller operates by measuring electrical currents, the water may be too pure to allow it to operate successfully. We recommend using a Nanofiltration Element instead of RO, which will remove only 80% of the Ions, compared to 99% by RO.
What lubricant should I use for the seals in an RO System?
You will need a special lubricant so as to not damage the membrane in your system. The product part # to search for is H-C111DC.
What contaminants will Reverse Osmosis remove from the water?
| Ion | % Rejection* |
| Calcium | 93-99 |
| Sodium | 92-98 |
| Magnesium | 93-98 |
| Potassium | 92-96 |
| Manganese | 96-98 |
| Iron | 96-98 |
| Aluminum | 96-98 |
| Copper | 96-99 |
| Nickel | 96-99 |
| Cadmium | 93-97 |
| Silver | 93-96 |
| Zinc | 96-98 |
| Mercury | 94-97 |
| Hardness Ca&Mg | 93-97 |
| Radioactivity | 93-97 |
| Chloride | 92-98 |
| Ammonium | 80-90 |
| Bromide | 90-95 |
| Phosphate | 95-98 |
| Cyanide | 90-97 |
| Sulfate | 96-99 |
| Thiosulfate | 96-98 |
| Silicate | 92-95 |
| Silica | 90-98 |
| Nitrate | 90-95 |
| Boron | 50-70 |
| Borate | 30-50 |
| Fluoride | 92-95 |
| Polyphosphate | 96-98 |
| Orthophosphate | 96-98 |
| Chromate | 85-95 |
| Bacteria | 99+ |
| Lead | 95-98 |
| Arsenic | 50-90 |
What is the difference between Brackish and Seawater?
Brackish water is water that has more salinity than fresh water, but not as much as seawater. Brackish water is typically 1,000 - 15,000 ppm. Anything above 15,000 ppm and up to approximately 50,000 ppm is considered seawater.
Media Filters, PrePost Treatment FAQs
How long will 1 cubic foot of Calcite last?
a. Multiply the liters of water used by amount of carbon dioxide in mg/l. Let us call this number X.
b. Divide 96,800,000 by ‘X’. This will give you the number of days 1 cubic foot of Calcite will last.
How much calcite is required to neutralize the water?
Each 100 mg/l of Calcite will neutralize 44 mg/l of carbon dioxide. So 1 cubic foot (about 100lbs) of Calcite will treat about 96,800,000 mg of carbon dioxide. If water has 20 mg/l of carbon dioxide then 1 cubic foot will treat: (96,800,000 / 20) liters of water. Or 4,840,000 liters or 1,278,730 gallons of water. If the water usage is 10,000 gallons/day, then 1 cubic foot of Calcite will last 128 days.
Where is Calcite used?
Adding calcite to water gives water alkalinity which offsets the acidity (low pH) of water caused by dissolved carbon dioxide.
Carbon dioxide in small amounts is present in all natural waters. In reverse osmosis membranes remove the alkalinity present in water but not the carbon dioxide, because it is a gas. This creates a low pH in the product water.
Do Pyrolox filters require a gravel underbedding?
Yes. Without and underbed you will find the filter can have a poor backwash distribution. It is important to use an underbed that is heavier than Pyrolox to prevent migration into the media.
Will Chlorine destroy the Pyrolox media?
No. Actually, using chlorine or other oxidants is strongly recommended as they will extend the life of the media.
Why is a daily back-wash necessary when using Pyrolox?
Back-washing removes contaminants on the surface of the media allowing for better performance. Since Pyrolox™turns sulfur, iron, and manganese into a particulate, the solids begin to coat the surface of the media, weakening its oxidation capacity. Thorough back-washing keeps the surface of the media free to continue the oxidation process.
What is the life expectancy of Pyrolox?
The medium will last for an indefinite time. However, about 10-15% per year is lost due to attrition or lost fine media during backwash and should be replaced.
What pH range is ideal for Pyrolox?
Pyrolox works best between a pH range of 5 to 9. Ideal pH is between 6.5 and 7.
Are there any impurities that are a problem for Pyrolox?
Yes. Organic iron, sulfur, bacteria, tannins, chloride levels over 500 mg/l are all either not removed or affect the efficiency of the Pyrolox filter.
What are the limits of removal by Pyrolox?
These are the limits:
pH 5-9 ( Best at pH higher than 6.5 )
Hydrogen sulfide 10 mg/l
Iron 10 mg/l
Manganese 8 mg/l
What is Pyrolox and what is it used for?
Pyrolox is a granular water filtration media used for the removal of hydrogen sulfide, iron and manganese. Through a natural chemical reaction, Pyrolox has the ability to help you produce clean, high-quality water. Pyrolox works because of a catalyst reaction whereby hydrogen sulfide, iron, and manganese are oxidized on the media. Daily backwashing then flushes trapped particulate from the filter bed. Pyrolox is a natural mineral form of manganese dioxide, making it an environmentally sound means of water filtration.
How often do I need to add Salt to my Brine Tank? How Much?
The brine tank should be filled with salt to slightly above the water level. The tank is self filling, so no additional water needs to be added. Check the tank regularly, and add salt as necessary to maintain the proper level of salt.
How do you dispose of the resin in a water softener?
Softening Resin Disposal. It is a non-hazardous product that you can throw out with regular trash.
How often should I change the resin in a water softener?
Softening Resin Life (Approximate):
No chlorine: 8 years
Chlorine: 3-4 years
Would soft water be preferred as feed for an RO?
Hardness is easily precipitated as a scale on the membrane surface as the pure water is removed by the membrane. For residential membranes, the removal of the hardness may prolong the membrane life if the soft water is used.
What is the total time to regenerate a water softener?
The total to regenerate is between 1.5 to 2 hours.
How long does the brine refill take for a Water Softener?
This time is a minimum of 4 minutes.
How long is the Rapid rinse for a Water Softener?
Rapid rinse is typically 10 minutes minimum.
How long is the brine and slow rinse for a Water Softener?
This depends on
the salt dosage selected for the softener. The default setting is 60 minutes.
| Salt Dosage, lb/cuft | Brine and Slow rinse Time, minutes |
|
5 |
60 |
| 10 | 80 |
| 15 | 100 |
How long is the backwash time for a Water Softener?
Minimum backwash time is 5 minutes. Generally the backwash time is factory set at 10 minutes. If the water is not clear then the backwash time can be as long as 20 minutes.
Membrane Cleaning FAQs
Which Membrane Cleaner Should I Use?
The membrane cleaner required will depend on the type of fouling the membrane has been exposed to. Visit the below page to troubleshoot:
How much cleaning solution will I need to clean my membranes?
Estimate of Cleaning Solution Volume:
V = El × Vol × 5
- El = Number of Elements
- Vol = Volume of one element from Table Below
| Membrane Type | Chemical Solution Volume, Gallons (Vol) |
| 4" x 40" | 2.5 |
| 4" Magnum | 3.5 |
| 6" x 40" | 4.0 |
| 8" x 40" | 6.0 |
| 8" Magnum | 8.5 |
What should the flow rate be for proper membrane cleaning?
Estimate of Total Flow Required for Membrane Cleaning:
HTF = NV × HF
MTF = NV × MF
- HTF = High Total Flow
- MTF = Medium Total Flow
- NV = Number of Vessels in Parallel
- HF = High Flow from Flow Table (below)
- MF = Medium Flow from Flow Table (below)
| Membrane Type | Medium Flow (MF) | High Flow (HF) |
| 4" x 40" | 4 | 10 |
| 4" Magnum | 4 | 10 |
| 6" x 40" | 12 | 20 |
| 8" x 40" | 25 | 35 |
| 8" Magnum | 25 | 35 |
What is the proper sequence to follow when cleaning membranes?
Whether the system needs acid or alkaline cleaner will depend on the type of foulant suspected. We reommend acid cleaning be performed first, even when alkaline cleaning is desired. If system performance recovers with acid cleaning, then alkaline cleaning is not necessary.
Membrane Cleaning Sequence:
1. Alkaline Cleaning
2. Flush
3. Acid Cleaning
4. Flush
5. Sanitizing
6. Flush
How often should I clean my membranes?
In normal operation, the membrane in reverse osmosis membrane elements can become fouled by suspended solids, microorganisms and mineral scale. These deposits build up during operation and cause loss in water output or salt rejection, or both. Membrane elements should be cleaned whenever the normalized water output rate drops by 15% from its initial flow rate (the flow rate established during the first 24 to 48 hours of operation) or when salt content in in the product water rises noticeably.
It should be noted that the water output rate will drop if feedwater temperature decreases (see Temperature Correction). This is normal and does not indicate membrane fouling. Click here to view RO membrane cleaning chemicals.
Is is necessary to heat our RO cleaning solution?
If your cleaning solution temperature is at least 20 deg C, then you do not need a heating element.
Also, as you recycle the water there will be further rise in temperature, which should be kept below 50 deg C.
Residential RO Systems FAQs
How do I test and refill the pressure for my storage tank?
The tank should be empty before checking the pressure. First open the faucet to drain the tank as far as it will go by itself. Remove the plastic on the front of the tank to expose the air valve. Using a bicycle tire pump, fill up the tank only until the water begins to flow out. Do not over pump the tank or you may ruin the bladder. Keep doing this until you are sure all of the water is out of the tank.
Once the tank is empty, test the pressure using a tire pressure gauge. This should be at approximately 7-8 psi. If the pressure is low, use a bicycle tire pump to fill with more air until the pressure reaches a maximum of 8psi.
What does each filter do in a residential RO System?
Our AAA series residential reverse osmosis systems are 5-stage systems.
Stage 1 is a 5 Micron Sediment filter, to remove suspended solids such as dirt, dust and rust from the water. This helps to extend the life of the membrane and filters downstream by removing any particles which can clog and damage them.
Stage 2 & 3 are GAC (granular activated carbon) filters to remove chlorine, taste and odor from the water. It is important to have these upstream from the RO membrane in a system, as they remove the chlorine which will damage the membrane if it comes into contact.
Stage 4 is the RO (reverse osmosis) Membrane which removes 98% of the total dissolved solids in the water. This is where the purification takes place.
Stage 5 is a GAC (granular activated carbon) "polishing filter" which the water passes through right before going to the faucet. This helps to improve the flavor of the water, and to remove any taste or odor that the water may have developed while in the storage tank.
Why is my faucet spout dripping?
Possible Cause: The handle is sticking or worn.
Remedy: Replace the faucet.
Why is the water backing up to the air gap faucet?
| Possible Cause | Remedy |
| Line is clogged | Clean out the line |
| Line is too long | Must be as short and straight as possible |
| Drain is clogged | Disconnect the drain line and clean out with probe or by flushing |
Why is Water Leaking from the Filter Housings?
| Possible Cause | Remedy |
| Filter sumps are loose | Retighten the filter sumps to the caps |
| Burr on edge of filter housing | Remove burr with emory cloth or sand paper |
| O-Ring in filter bowl is missing, damaged, or not seated properly | Replace or position correction |
Why is there no water in my storage tank?
| Possible Cause | Remedy |
| Filter cartridges have failed | Replace filter cartridges as indicated |
| Cartridges upside down | Install carbon block filter right side up as indicated on the filter. |
| No pressure in storage tank | Check pressure with gauge. Refill or reduce pressure to max. 8 psi. |
| Automatic shut-off malfunctioning | Check lines to valve for correct hook-up and check for water running into drain. Replace if necessary |
| Kinked lines | Straighten lines if necessary |
Can I use Copper Tubing for the RO Product Water?
No. Due to RO product water being very pure, it can leach the minerals from copper tubing which will cause a metallic taste in the water or ice, and cause the copper tubing to develop pinhole leaks over time.
How Far Can A Line Be Run From the RO System?
If using 1/4" Poly tubing: Approximately 20-25 Feet.
Use 3/8" Poly tubing for longer distances.
Tubing for RO product water should always be POLY tubing, not copper.
What does each filter do in a residential RO System?
Our AAA series residential reverse osmosis systems are 5-stage systems.
Stage 1 is a 5 Micron Sediment filter, to remove suspended solids such as dirt, dust and rust from the water. This helps to extend the life of the membrane and filters downstream by removing any particles which can clog and damage them.
Stage 2 & 3 are GAC (granular activated carbon) filters to remove chlorine, taste and odor from the water. It is important to have these upstream from the RO membrane in a system, as they remove the chlorine which will damage the membrane if it comes into contact.
Stage 4 is the RO (reverse osmosis) Membrane which removes 98% of the total dissolved solids in the water. This is where the purification takes place.
Stage 5 is a GAC (granular activated carbon) "polishing filter" which the water passes through right before going to the faucet. This helps to improve the flavor of the water, and to remove any taste or odor that the water may have developed while in the storage tank.
Do I need a booster pump for my residential RO system?
Water pressure is necessary to force the water through the membrane and to flush the rejected solids out of the element, and is directly related to production and quality of filtration. Low pressure can result in low production, low rejection, and premature fouling of the membrane.
The ideal pressure for an RO System is approximately 60 PSI. Generally anything between 40 PSI and 60 PSI is considered acceptable. If your water pressure is below 40 PSI, a booster pump is required to boost the water pressure.
Can I use the RO water for my icemaker or refrigerator?
Yes. The RO treated water can be run to an icemaker. This can be done by installing a 1/4" tee in the line between the final polishing filter and the faucet. 1/4" POLY tubing should be run to the icemaker.
All tubing for RO water should be POLY tubing. Copper tubing should not be used.
The 1/4" tee is sold on our site under part #: F-4UT44QC.
Why am I getting very little output from my RO?
Please check the following:
- If the water pressure is below 40 psi, a booster pump may be necessary.
- If the water pressure is above 40 psi, first try to re-tap the tap supply line. This can be done by tightening the self-piercing valve clockwise until it is fully turned, then turn it counterclockwise until it stops. There should open enough space in the line for proper water flow.
- Straighten or repair the tubing
- Check that pre-filters are not clogged. If they are, they will need to be replaced. If membrane is fouled, it will need to be replaced.
How often do I need to change my filters?
There is no definite answer to this question, as the feed water conditions
and system maintenance will affect filter life. Below is a guideline:
| Sediment and Carbon Prefilters: | Every 3-6 Months |
| Carbon Post Filter: | Every 3-6 Months |
| Membrane Element: | Every 12 Months |
What is Silt Density Index?
What is SDI?
Suspended solids and colloidal materials in feed water are one of the biggest problems in reverse osmosis systems. Even though most systems have some pretreatment including 5 micron prefilters, these fine particles are responsible for fouling of reverse osmosis membranes.
In order to have some measure of the degree of this fouling problem, a concept called Silt Density Index is used. Here a 0.45 micron filter is exposed to the feed water under pressure and filtration rates are calculated. A detailed description of the test is available here: Test for Determining Silt Density Index
An SDI of less than 5 is considered acceptable for the reverse osmosis systems. This means that at values of SDI of less than 5, the membranes should foul at a very low rate. Even though the concept works most of the time, there are exceptions when a lower SDI (less than 3) is desirable due to the nature of the suspended solids in that feed water.
Ultraviolet Systems (UV) FAQs
Should I shut my system off when I am not using it?
No, the Ultaviolet Sterilizers system should be left on whether you are using the water or not. The lamps age regardless of the amount of the water drawn through the system. By leaving the unit on, you will eliminate the potential problem of having contamination pass through the system while the unit is off.
Do I need to disinfect my municipal water supply?
Our municipalities work very hard to provide safe, disinfected water for their customers. This is quite evident when you consider the difficulties involved in providing safe drinking water through a vast distribution network. If you use water that comes from a municipal water supply and wish to provide your family with an added "peace of mind", then we believe a UV system acts as an inexpensive insurance policy against the possibility of drinking bacteriologically contaminated water.
Why do I need to disinfect my water supply?
Disinfection is recommended for all water supplies that are not protected by a municipal water source (ex. A private well). Unfortunately, due to the uncertainties that exist with our current water supplies, we can no longer rely on the fact that our water supplies 'may be safe'. By providing your own disinfection, you are taking the responsibility of ensuring the safety of your water supply for you and your family.
How does the UV light actually kill microorganisms?
UV does not kill microorganisms like chlorine does, but instead UV inactivates them. UV light at a specific wavelength of 254 nm is readily absorbed by the genetic material of microorganisms. The DNA strand is coded with a specific sequence of something called base pairs. The sequence of these base pairs codes for certain characteristics. UV light at 254 nm is readily absorbed at the point on the microorganism's DNA strand which codes for reproduction. A microorganism that cannot reproduce, cannot make colonies and therefore cannot infect when consumed. In other words, the microorganisms have been sterilized or neutered. They will eventually die off.
The picture on the left shows a DNA strand of a microorganism. You can see where the UV light is absorbed and how a blockage is formed, causing the microorganism to become sterile.
Does UV inactivate Cryptosporidium (Beaver fever) and Giardia?
Cryptosporidium and Giardia are what is called a protozoan cyst. Protozoa can be described as microscopic, single celled microorganisms which live in water and are quite a bit larger in comparison to other microbes. The majority of protozoan cysts are parasitic. Both Cryptosporidium and Giardia are parasitic. These organisms are in a dormant phase when in water but when they enter a host (being any kind of mammal) they release colonies and begin to breed, ultimately causing severe diarrhea and dehydration over a prolonged period of time.
Cryptosporidium and Giardia were not microorganisms of concern until approximately 10 years ago when Milwaukee was hit with a waterborne disease epidemic. Milwaukee drinking water is surface water, which had become contaminated with high concentrations of Cryptosporidium at the time. Over 100,000 people came down with Cryptosporidiosis and over 400 people died. The USEPA recognized that they needed to consider these organisms and include them within their drinking water guidelines. Testing was done and it was found that chlorine was NOT effective against either of the protozoa. Testing was then conducted using UV technology with initial failure due to improper test procedures. Ultimately it was proven that UV is in fact very effective against Cryptosporidium and Giardia. The dose levels required to inactivate these cysts are actually quite low; less than 10 mJ/cm² for 99.9% reduction of both Cryptosporidium parvum and Giardia lamblia.
Will a UV system kill all microorganisms in my water?
All Sterilight systems are rated for a 4-log inactivation of bacteria, viruses and protozoan cysts under specific conditions. This rating is at a specific flow rate, and water quality. It is a good idea to have your water microbiologically tested prior to installing a UV system. We do suggest that if your water has bacteria counts in excess of 1000 CFU/10 mL that you do a bit of research with regards to what could be causing such high bacteria counts and that you oversize your UV in order to ensure a high UV dose being delivered to your water supply.
Microorganism Destruction Chart
Is UV effective against E. coli?
Yes, E. coli requires a UV dose of between 6 -10 mJ/cm² to achieve a 4-log inactivation. This is well within the capabilities of Sterilight UV systems.
How do I clean the quartz sleeve?
If the quartz becomes stained, remove the sleeve from the reactor chamber and clean the OUTSIDE with a commercially available scale remover, such as Lime-Away or CLR. If the inside of the quartz sleeve does become wet, ensure that it is thoroughly dried before putting the Sterilight system back together.
My lamp is still glowing blue; do I still need to replace it?
The UV light that is inactivating microorganisms in water is non-visible light, therefore the blue light that you see coming off a UV lamp is not what's doing the work. A UV lamp can be described as a low pressure mercury vapor lamp, which means it fires via mercury vapor. Over the course of a year that mercury is being used up resulting in a slight decrease of UV intensity. At the end of one year a Sterilight UV lamp has decreased in it's intensity by approximately 20%. We strongly recommend that UV lamps be changed on an annual basis.
What is recommended maintenance for a UV System?
Sterilight UV systems require the lamp to be changed on an annual basis (provide they are not installed in a seasonal home). It is suggested that the quartz sleeve be cleaned during the lamp change provided the home is supplied with high quality water (no iron, hardness etc.) otherwise the sleeve should be maintained on a regular basis.
Please NOTE: If the Sterilight system you have is monitored (ie. Has a sensor) you must ensure that you clean the sensor eye as well as the quartz sleeve.
All new lamps come with a pair of o-rings. Please replace existing o-rings with the new ones.
Is UV light harmful?
You never want to expose your skin or eyes to the light from a UV system. UV light is non-visible however it can be harmful, similar to the harmful effects of UV light from the sun. UV lamps can actually cause a severe sunburn-like effect if skin is exposed for long periods of time.
Always ensure that you are wearing some type of protective glasses (ie. Safety glasses or sunglasses) when working on a UV system and the lamp is exposed. You want to make sure that you do not touch the UV lamp with your fingers as the oil from your hands will form a residue on the lamp and can potentially block UV light.
What does "log inactivation" mean?
Log inactivation is the inactivation of microorganisms on a logarithmic scale. Microorganisms must be considered on a logarithmic scale due to their high numbers.
What is UV dose?
UV dose is the energy that is coming off the UV lamp over a specific time period. Therefore, UV dose (or fluence) is a product of UV intensity and time. Dose is usually measured in milli joules per square centimeter. Each Sterilight system is rated to disinfect your water at specific flowrate, under specific water quality conditions to give a UV dose of 30 mJ/cm2 at the end of the lamp life (which is one year).
If you were to run say 10 USGPM through a 5 USGPM Sterilight system (ie. S5Q-PA) then you would only be receiving HALF the dose that the system is rated at because you doubled the flow. It works the other way as well. If you were to have a 12 USGPM Sterilight system installed (ie. S12Q-PA) but you were only running 6 USGPM through it then you would be receiving double the UV dose as you are increasing the water's exposure time to the UV light.
The UV industry standard for dose is 30 mJ/cm2 at the end of lamp life (EOL) however different validation protocols will specify different dose values. Please refer to the compliance page for more information on the various validation dose requirements.
What is UV light?
UV light is part of the electromagnetic spectrum, shining at a specific wavelength.
All light is given off at different wavelengths. For example if you see a rainbow, you will notice that the colors are always in a specific order from red all the way to blue. You are able to see each color due to their individual wavelength. These wavelengths are part of the visible portion of the electromagnetic spectrum.
UV light is at a wavelength of 254nm (nanometers), and is not visible to the naked eye. This portion of the electromagnetic spectrum is termed UV-C light or a germicidal wavelength. At this 254nm microorganisms undergo a genetic alteration which ultimately results in inactivation. Below is a representation of the electrospectrum:
UV System manufacturers are able to harness this wavelength of light in UV lamps, which will ultimately disinfect your water
Will UV change the taste and/or odor of my water?
No. With chemical disinfection, such as chlorination, the taste and odor of your water will change (depending on chlorine levels water can smell and taste of bleach) and disinfection by-products will be produced. A few examples of chemical disinfection by-products (DBP) are trihalomethanes and haloacetic acid. Both of these DBP's can be carcinogenic when ingested at high levels. The pH and conductivity of drinking water also changes when chlorine is added.
UV is a physical type of disinfection. This means that the UV will have an effect on the microorganisms in the water only. The water will not change chemically, nor will the taste and odor change. The water may elevate in temperature if the water has been left stagnant in the UV reactor (ie. During times of little or no use - during the night).
I have colour in my water causing a low UVT, how do I remove it?
If you have high colour in your water it is most likely a concentration of tannins. High tannin levels are found in most surface water supplies and some groundwater or simply in waters where large quantities of vegetation have decayed. Unfortunately tannins cannot simply be removed from water by a physical means of filtration.
Tannins can be described as a colloidal suspension as it carries a negative charge and therefore will not simply fall out of solution like turbidity does. Tannins are water soluble, organic compounds formed in the decomposition of organics. It can cause a slight yellowish color to the water and will rapidly decrease the level of UVT in your water as the tannin level increases.
The most efficient way to remove tannins from drinking water is by way of an anion exchange system. Hardness is removed from water via a cation exchange system or softener, as the hardness compounds need to be exchanged with sodium ions in order for the hardness to be removed. Tannin removal systems work the same way but with a slightly different resin than a softener. Softeners exchange cations for cations (positively charged ions, like calcium and magnesium in exchange for sodium ions) and tannin removal systems exchange anions for anions (negatively charged ions like tannins in exchange for chloride ions).
What is UVT?
UV transmittance at 254 nm (which is the wavelength of light that UV lamps operate at) is a measure of the fraction of incident light transmitted through the water column. The UV transmittance is the ratio of the light entering the water to that exiting the water. The UVT is usually reported for a pathlength of 1 cm. As UV absorbance increases, the UV transmittance decreases (USEPA UVDGM 2003).
UVT is measured using a spectrophotometer. High levels of color &/or tannins will cause a decrease in the UVT level. If the water cannot transmit the UV light, than the UV cannot disinfect efficiently
Does my water require pretreatment before my UV?
Yes, you must have your water tested prior to installing a UV systems. Many people feel that if they can fill a glass with water and the water looks clear then that must mean that it is. This is not true. There is more to water than what the naked eye can see. Water flowing through a UV system needs to be free from hardness, iron, turbidity, manganese and color (which can be called tannins). The following is what R-Can recommends for the Sterilight UV systems:
Hardness < 7 gpg (grains per gallon)
Iron < 0.3 ppm (parts per million)
Manganese < 0.05 ppm
Turbidity < 1 NTU
UVT > 75%
Tannins < 0.1 ppm
If these levels are exceeded scaling can occur, causing a decrease in the UV system's efficiency as well as an alarm condition if the system is monitored. We always recommend to our customers that they install a 5 micron filter prior to the UV in order to knock down any turbidity that may be present in the water.
We do recommend that if you are drawing from a lake or from some other SURFACE water supply (lakes, rivers, dug well etc.) that a water analysis is ALWAYS done prior to the installation of a UV.
How do I disinfect water lines in my home?
A UV system is there to protect your water from pathogenic microorganisms, BUT there is the potential for harmful microorganisms to already be present in the water lines. The water lines then need to be disinfected upon installation of the UV system.
A simple way to introduce a disinfectant (chlorine) into the lines is via the filter. Once the Sterilight system has been plumbed in simply remove the cartridge from the filter housing and fill the housing halfway with household bleach (bleach contains 5.25% chlorine). With the Sterilight system ON, turn the water on and ensure that at each and every tap a chlorine smell is detected. Leave the bleach in the lines for at least one hour. Drain the chlorine from the lines.
What is a solenoid valve and can I hook one up to a UV System?
A solenoid valve is an electrically-activated mechanical valve that opens and closes when power is applied to it. This kind of valve can be installed and wired into a Sterilight system which is monitored. If the UV intensity were to drop below the recommended level the solenoid would then be activated and automatically shut down the flow of water. This will keep contaminated water from getting through the UV system. A solenoid can be hooked up to a Sterilight system either by dry contacts (the Platinum, SUV and SUVAM systems all come equipped with dry contacts), or directly into the Sterilight system (Silver and GOLD series can be hooked up directly to a solenoid; outside power does NOT need to be brought to the solenoid).
Are UV systems expensive to operate?
UV systems are extremely economical to operate. A typical 8 USGPM whole house UV system operates on the same power requirements as a 40 WATT light bulb.
Should I install a by-pass assembly?
Although not essential, the installation of a simle by-pass assembly would allow for emergency use of the water in case the UV unit was required to be removed from service. A simple by-pass assembly with three isolation valves can be installed quite easily.
Will a UV system restrict my water pressure?
No, Sterilight systems are designed with inlet/outlet ports correctly sized for the specific application. As an example, the 8 USGPM system comes with 3/4" ports. The typical pressure drop on this system would be 2-3 psi.
Where do I install UV in relation to other treatment equipment?
The UV must be the very LAST piece of water treatment equipment.
How difficult is it to install a UV System?
A Sterilight UV system requires two water connections and one electrical. Very simple. You can install any of the Sterilight UV systems either vertically or horizontally HOWEVER there is a right and a wrong way to do this. If you are going to install a Sterilight UV system vertically please have the system set up so that the lamp slides down into the system (in other words the lamp goes in at the top) or if you are going to install the system horizontally, ensure that the inlet/outlet ports are facing up (toward the ceiling). Please ensure that the UV system is installed prior to the branching off of hot and cold water lines.
How much space does a UV system require?
As the UV lamps and /or sleeves need to be periodically removed from the reactor chamber, you must leave at least double the length of the disinfection system to facilitate removal. A typical 5 USGPM UV system would require approximately 45" of space either vertically or horizontally.
How do I size a UV system for my home?
It is important to never under-size a UV System. When in doubt, always choose the next size up. Don't know your flow rate? Visit our Flow Rate & Sizing Guidefor help.
Pumps & Pressure
How do I install a permeate pump onto my residential RO?
Click Below for permeate pump installation instructions:
ERP-1000 Installation Instructions (PDF)
Can Auto Shut Off Valve be used w/ boost pump & pressure switch?
Yes, if the PSW shuts off the pump BEFORE the Auto Shut Off Valve shuts off the water supply to the membrane. If the ASV is located upstream of the pump, and shuts off the supply of water to the pump while it is still running, the PSW will continue to allow electricity to flow to the pump. While dry running is not harmful to the pump, energy is consumed, and moving parts are wearing.
If the ASV is located between the pump and the membrane, the pump will continue to run under pressure, requiring the water in the pump to continually by-pass within the pump. This condition will develop heat, and may cause damage to the pump.
If the ASV is located between the pump and the membrane, the pump will continue to run under pressure, requiring the water in the pump to continually by-pass within the pump. This condition will develop heat, and may cause damage to the pump.
Can the PSW be used with an open container?
The water level in an open container is normally determined by a float device that shuts off, or turns on, electricity to the pump when the desired level has been reached. If the container is non-metallic, electrical currents can be transmitted through water with purity levels down to 3 ppm TDS, sending a signal to a solenoid and pump switch. Click on Aquatec’s accessory section to learn about the Tank Level Controller.
The Aquatec booster pump output pressure is only 60psi?
Assuming you have not adjusted the by pass setting, you may be using a membrane
with a permeate production higher than the pump can supply. Either switch to a higher
flow pump, or go to a lower rated membrane.
What effect does feed pressure have on the tank/faucet pressures
None. The flow of water to the membrane will increase, but 80 psi pump discharge
pressure will not change due to the preset by pass pressure.
The pump that delivers water to the refrigerator is noisy.
The pressure switch controlled demand delivery pump is probably delivering more
water than the icemaker can accept (usually about 1/4 gpm at 35 psi), and is momentarily
reaching its shutoff pressure. Use a lower flow pump, and add an accumulator between
the pump and refrigerator if necessary.
What is the useful life of a Procon Pump?
Procon pumps have an expected life of 10,000 hours of continuous use.