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  Types of Treatment
Home > Education > Treatment Options > Types of Treatment​​
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There are many devices available for treating drinking water in the home, ranging from small pitchers to complex home systems. Factors to consider include contaminants of concern, space and installation limitations, cost, and the home's water supply (i.e., municipal or private well). While no single technology can remove all waterborne contaminants, a combination of processes can be used to reduce a wide array of contaminants. 

​Continue reading below to learn more about common treatment technologies.
Click here to search for water treatment devices that have been certified to NSF/ANSI standards. Certification ensures that the device is made from safe materials and the contaminant reduction claims listed on the packaging are verified by independent lab testing. 
​Filtration
Removes large particles, improves taste & odor

E.g., SED, GAC, ACB
Membrane Filtration
Separates contaminants and dissolved solids,
​E.g., Reverse Osmosis
Disinfection 
Removes most microbial contaminants,
E.g., UV & Ozone
Post-Filtration
​Activated Carbon

Removes small particles & improves taste & odor
Activated Carbon
Activated Carbon is perhaps the most universally used technology, primarily used to remove organic chemicals. The filters act as an adsorbent to remove or reduce levels of water contaminants that affect the taste and odor of water, as well as harmful solvents, pesticides, and hazardous chemical wastes. They can also reduce radioactive compounds, chlorine, disinfection by-products (DPBs), and lead. It does not, however, remove harmful microbes. 
Benefits:
  • ​Can remove radioactive compounds, chlorine, disinfection by-products (DPBs) and lead 
  • Effective for improving taste and odor 
  • Affordable and widely available
Limitations
  • Not effective for microbes, minerals, and dissolved solids
  • Low flow rate
Learn More
Reverse Osmosis
Reverse osmosis (RO) is a process where water and contaminants are separated by passage through a thin semipermeable membrane. The membrane creates a barrier between water molecules and chemical or microbial contaminants as high-pressure forces water through the membrane, leaving contaminants behind. RO systems can remove most organics, metals and nitrate but are often used in succession with activated carbon and UV light for increased efficiency and for removal of inorganic compounds. This multibarrier approach eliminates a wide variety of contaminants that no single system can fully address.
Benefits:
  • Removes most water contaminants, including organics, metals, and nitrate​
  • Widely available
  • Long RO membrane lifespan​
Limitations
  • Slow filtration rate
  • Space required for water tank
  • Produces reject water (wastewater)​ 
Learn More
Ultraviolet (UV)
UV light utilizes radiation disrupting cellular DNA to kill microbes but is not utilized for removal of chemical contaminants. This treatment tool is generally used as a final step in RO systems to improve the efficiency of microbe removal originating from the source water or that may grow in the POU system over time. All units require some level of routine maintenance, which may include cleaning and sanitizing and filter or light changes. In addition, some units require professional installation with associated labor fees.
Benefits:
  • Effective against microbes
  • Fast and reliable
  • Simple maintenance​​
Limitations
  • Electric supply needed
  • Ineffective against other contaminants
  • UV lamp and light tube need to be monitored 
Learn More
Ozone
Ozone is a highly reactive molecule composed of 3 oxygen atoms. When produced under controlled conditions, the oxidizing power of ozone can be harnessed and utilized to destroy harmful microbes contaminating food, water, and even surfaces.
Benefits:
  • Effective against microbes ​
  • Removal of organic and inorganic matter , pesticides, taste and odor constituents, and other water pollutants.
  •  Not affected by pH variation. 
Limitations
  • Unreliable residual effect - does not continue disinfecting after application. 
  • ​Instability - must be generated onsite. 
  • Produces disinfection by-products 
Learn More
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  • Home
  • About
    • About WQRF
    • WQRF Board
    • Annual Reports
  • RESEARCH
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    • Completed Studies >
      • 1-Minute for Water Research
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    • Open RFPs
    • Newsletter
  • Map
  • EDUCATION
  • Next Wave Campaign
    • Campaign Leadership
    • Campaign Supporters
    • Donate
  • MEDIA
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    • PFAS Symposium
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