Wednesday, March 30, 2011

Well Water Filtration








There are several important factors to consider when preparing to filter the water from your well. Here are a few things to think about before purchasing any water filter device:

1. There are no wells that are the same
. No single water treatment device or filter will treat every type of well. A viable water treatment company will offer many different types of well water filters to suit your specific needs.  IN MANY CASES, YOU WILL FIND A DEALER WILL OFFER THE SAME PRODUCTS FOR MUNICIPAL WATER AND WELL WATER SUPPLIES.  BEWARE THEIR KNOWLEDGE AND PRODUCTS ARE GOING TO BE VERY LIMITED.

2. Well Water Testing. Get a sample of your well water right from the source. Have your well water tested thoroughly by qualified well water testing engineer.
Variable Media Maxi-Cure Well Water Filter

 
Well Water Test results should include:
    A. Initial observation of any odor (rotten egg smell)
    B. Total Hardness (gpg)
    C. Sodium Content (ppm)
    D. Iron (ppm) 
    E. pH
    F. Alkalinity 
    G. Chloride (ppm) 
    H. TDS (ppm) 
    I. Oil 
    J. Bacterial Iron
    K. Langelier Satisfaction Index 
    L. Nitrate (ppm) 
    M. Color and Clarity    

3.Your well water quality may not be consistent. Typically, a shallow well will display inconsistent readings throughout the year depending on rainfall amounts, surface water runoff etc. When considering a well water filter, it is highly, recommended taking the depth of your well into consideration and what type of industry is around you (dairy, farms, creeks, etc.) If it is shallow (less than 100 ft) or there are areas with livestock (nitrate contamination) it is recommended to use a well water filter that will take care of any of these issues that could possibly develop.  This will assure you of excellent quality water coming into your home year round. If you are on a large piece of property, your well may be fine for irrigation, but may require a well water filter for your home or livestock. 

5. Have your water engineer provide you with well water test results and recommend a well water filter that will meet your specific needs. Remember, every well is different and you need to be certain the well water filter will remedy your requirements and it's not simply a "water conditioner" that will cure everything. A knowledgeable well water technician is essential in making recommendations for well water.

For more information on well water treatment, visit our website at:

Friday, March 25, 2011

Water Conditioners vs. Water Softeners








Water Conditioners vs. Water Softeners
Hard water is the calcium and magnesium in your  water which is responsible for scale build up, water spots, premature failure of appliances and plumbing fixtures. How do I know how hard my water is?
Here is an easy way to explain the measurement of water hardness:
Hard Water is measured in grains per gallon.
Let’s say your water has 20 grains per gallon of water hardness.  This is a very average measurement found throughout the United States. The volume measurement of an Aspirin Tablet is 5 grains.   Instead of Aspirin,  replace it with calcium and magnesium.   Since your water has 20 grains per gallon of hardness, this is the equivalent of 4 for tablets of calcium and magnesium the size of an Aspirin tablet dissolved in every gallon of water that comes into your home or business.   Water with a hardness of 2 grains per gallon or more is considered “Hard Water”


Traditional Mechanical Water Softener
Detailed information about Water Softeners:
Water softeners mechanically soften the water by exchanging the hardness minerals (calcium and magnesium) with sodium.  This process has been around since the early 1900s.  Inside all water softeners is a petroleum based product called resin.  As your water passes over these tiny resin beads, calcium and magnesium ions are removed from the water in exchange for sodium ions.   Depending on the hardness of your water, these resin beads will soften a pre determined amount of water before being exhausted.   Once this occurs, the water softener must regenerate and bring more salt to rejuvenate the resin.  During this cycle, the exchange process is reversed. The water softener draws a very strong salt solution into the resin bed.  The resin then releases the hardness minerals and retains the sodium for the softening.  The hardness minerals that were taken from the water are then sent down the drain along with residual salt.  The process of regeneration typically occurs about once a week for a family of 4.  On an average 50 gallons of water is sent to the drain during this process.   These types of mechanical water softeners are called Automatic Water Softeners.

Exchange Tank Softener
Exchange Tank Water Softeners: 
Many states, municipalities and counties have banned automatic water softeners.   Since waste water is now being reclaimed for irrigation, the brine discharge is not wanted in their sewer systems.Water Conditioning dealers have been given Discharge Permits to do this process at their plants. Exchange tanks are dropped off at customer’s homes or businesses and their exhausted tanks are returned to their plant for regeneration.   Truckloads of exchange tanks are returned to their plant.  All of the exhausted resin from these tanks are dumped into one large vat where a strong brine solution is rinsed over the resin.   The salt solution is then rinsed and the empty exchange tanks are refilled and returned to another customer for softening their water.
 
There are major considerations in this type of water softening:  Exchange tanks come from many different areas with different types of water quality, different business applications and homes.  As previously mentioned, the resin is dumped into large vats for regeneration. You as a consumer have no control over where the resin you are now using has been before coming to your location.   In addition, there can be a marked increase of heavy metals in the product water from the use of galvanized metal, zinc and brass from the exchange tank itself.   There are no regulations regarding the construction and quality control over exchange tanks.

Salt used for exchange tank water softeners: 
The salt which is used for the regeneration process is produced from ocean water or salt mines.  This salt is taken directly from the production facility and trucked to the dealer.  There are no regulations on the quality of the salt used to regenerate exchange tanks.   Something to consider when these exchange tanks are connected to your water supply and they have been regenerated with un-treated salt. 

Aesthetics of Mechanical Water Softeners:
Based on your personal preference, water that has been mechanically softened with salt will feel slippery, silky or slimy when washing with soap.  Some people like it and others do not because it feels like they cannot get the soap completely off.   Customers are told that silky, slimy, feeling are the natural oils they feel.  This is not true.  It is excess salt coming in contact with the lanolin which is a protective layer for your skin.  Salt is used in many detergents, liquid soaps as a filler because it increases the foamy, sudsy appearance which is more desirable to the consumer, but not necessarily the most beneficial.   If you look at the ocean as wave breaks, you will see white foam from the high salt concentration and oils from bacteria and other ocean life in the water.  Mechanical Water Softeners will prevent scale build up in water heaters by removing hardness.  The sodium from softened water will combine with soaps and limit bathtub ring, allows better results with laundry and dish washing.   Most laundry and dish washing soaps contain a lot of sodium.   Sodium causes the suds, but soap suds do not clean.  Salt softened water can cause spots depending the amount of sodium in water.    A common complaint of soft water is the etching of glassware in dishwashers.  This is caused by too much soap (with added salt filler) combined with soft water (added salt to the water).

Salt is very corrosive.  Mechanical Water Softeners use the same salt that is used on icy roads.  That salt is extremely corrosive to the undercarriage of vehicles, it literally destroys them.   Ocean going boats and homes located near the ocean require constant service just to keep the corrosiveness of salt under control.  Many consumers with galvanized pipes have discovered after purchasing a salt based water softener to prevent scale build up came up with leaks in their plumbing due to corrosiveness of salt. Homeowners with mechanically softened water will find they go through more water heaters because of the corrosive effect of salt on the tank and heating element.   Swimming pools and spas should never have mechanically softened water.  Homes with septic tanks should never have automatic water softeners due to the damaging properties salt has to the bacteria which breaks down waste.

Aquafer Water Conditioners or Whole House Water Filters:
With the concern over water waste, electrical use,  salt and chemicals, many consumers are considering whole house water conditioners over mechanical water softeners.   Water conditioners like the Vibrant Aquafer System do a multitude of processes to treat your water.   

Aquafer Water Conditioner
How a typical Aquafer Water Conditioner process works:
The untreated water enters the conditioner.  From there, the water is processed through a scale prevention device which renders the hardness minerals harmless for up to 72 hours.  This is done by producing a slight pressure drop in a chamber.  The water then passes through a catalyst which further enhances the process.  From there it passes over a strong magnetic field which forces the hardness minerals to be held in suspension for 72 hours.  During this time, water hardness minerals are unable to attach themselves to any plumbing, appliances or fixtures.  The next step is the passing of the water through a media called KDF which removes harmful chlorine, bad tastes, heavy metals and prevents bacteria growth in the water.    The result is water that has been treated for many purposes, scale prevention, much improved water quality for bathing, consumption and general cleaning use.

Conditioned water will tend to sheet.  If the water is left to dry, it will leave a residual behind.  The advantage is it will wipe clean very easily without the use of any chemicals or scrubbing.  There are fewer suds with a water conditioner because there is no salt added to the water.   You should not use more soap to get more suds.  Clothes will get cleaner without excess soap.  Your laundry and dishes will rinse off and dry easier.    In your shower, the water soap rinses of easily and quickly and cleaner.   Just like mechanically softened water, you will still need to clean our kitchen surfaces and toilets.

Water Softener or Water Conditioner? 
A true whole house water conditioner will remove sediment, chlorine, chemicals and will treat the water hardness in a way it will be unable to form scale with glass or metal.  A mechanical water softener does not treat the water for anything but hardness. Mechanically softened water requires continued maintenance of the dumping of salt and monitoring of equipment for performance of valve and meters.  Expected annual cost for salt for a family of 4 would be:  $120.00

Water Conditioners such as the Aquafer will provide consumers with approximately 2,000,000 gallons of conditioned maintenance free water.  Equivalent to 18 years.

Both systems are effective when it comes to treating hard water issues.   They will produce water that feels different.   Conditioned water by such products as the Vibrant Aquafer feels like water that has been softened naturally, similar to spring water.   Mechanically softened water will feel slippery or silky because of the added salt in the water.

When it comes to making a final decision on water softener vs. water conditioner, consider the following:
What results do I want with your treated water?
Do you want more than just soft water?
How do I want my product water to feel?
Am I concerned over the ecological effects of mechanically softened water?
Will my location work with a water softener?  Do I have a water supply, drain and electricity available?
Are there restrictions against water softeners in my area?
Do I want to improve the taste of my water?
Am I willing to properly maintain my system or would I prefer maintenance free?

Click Here for Vibrant Water Website





Thursday, March 24, 2011

Commercial Water Softeners

 Commercial Water Softeners

The Commercial Water Softening process is primarily designed to remove calcium ions from the water. The calcium hardness of the water causes scaling in heaters and pipes, soap scum on dishes as well as laundry, and creates unwanted precipitates in many water based products. In addition, calcium removal water softeners will remove magnesium, ferrous iron, and traces of metals such as copper, aluminum, zinc and radium. During the removal process, these ions are exchanged with sodium if sodium chloride (salt) is used and potassium if potassium chloride is used. By their nature, neither sodium or potassium will cause scaling or interfere with soap or detergents. When a water softener is regenerated, there are normally four steps used; backwash, brine draw, slow rinse, and rapid rinse. The backwash discharge is chemically the same as raw water. The brine draw and slow rinse steps contain the ions removed during the softening process, plus some sodium or potassium which are high in chlorides. The final rapid rinse is softened water.
Full knowledge of the chemistry of the water to be softened as well as the application of the softened water (laundry, water heaters, boiler feed, process water, condensate polishing, etc) enables us to fine tune the design for maximum salt use efficiency, minimum pressure drop, minimum regeneration waste water discharge, and lowest capital cost.

Custom units utilizing special meter controls, brine water diversion valves, high flow resins, high kinetic resins, mixed media and special tank construction are the specialty of Vibrant Water Engineering. We have supplied soft water for boilers, car washes, hospitals, laboratories, laundries, food processors, chemical manufacturers, cosmetic firms, farms, and paper processors to name a few.