Kansas City and Central Midwest US
816.221.6669
Water Purification Technologies
Commercial Water deploys a full range of water purification technologies to transform tap water into process water for your unique objectives.
City tap water is delivered at a certain, sometimes fluctuating, quality level. Â Commercial Water provides the high purity water you need by asking a few simple questions.
Key information for the water purity you want:
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What degree of purity does your business require?
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How fast do you need the water to flow?
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At what volume must the water flow?
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Do you have space constraints for the water purification system?
Water purification technologies we offer
01
Reverse Osmosis purification
Reverse Osmosis is a cos- effective way to produce pure water. Â R/O uses a pump which pushes the water through a membrane. Â The concentrated wastewater is sent down a drain, yielding the pure water, or "permeate".
Limitations include electricity usage and drainage considerations for the concentrate, depending on municipal classifications for wastewater. Â
R/O is typically designed to removed 98-99% of all dissolved solids. Â
02
Ion Exchange purificationÂ
Ion exchange is a process of replacing hydrogen ions for positively charged cations, while simultaneously replacingÂ
hydroxide ions for negatively charged anions. Â The end result is H-O-H, or H2O, the purest of water.
03
Water Softening systems
This is a type of ion exchange. Sodium ions from a concentrated brine solution are exchanged for calcium, magnesium, and iron ions. Â
04
De-alkalyzing water treatment
Operates similar to a water softener. Â But instead of using sodium to replace metal salts, this system exchanges the chloride ions for negatively-charged compounds like phosphates, nitrates, and bicarbonates.
05
UV Disinfection
A 254 nanometer wavelength UV light disrupts the DNA of bacteria. inactivating bacteria, viruses, and mold spores. Â This is a mode of disinfection, a tool to prevent bacterial growth. Â
06
Media FiltrationÂ
Various media provide filtration of suspended solids. Some examples include carbon, sand, and multimedia. Â Typically the goal is choose an effective media for the particulate size you aim to remove.