To Know More; Download PDF Brochure: https://bit.ly/3L16WbE The global point-of-use water treatment systems industry size is projected to grow...

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To Know More; Download PDF Brochure: https://bit.ly/3L16WbE The global point-of-use water treatment systems industry size is projected to grow...
To Know More; Download PDF Brochure: https://bit.ly/3L16WbE 

The global point-of-use water treatment systems industry size is projected to grow from USD 16.2 billion in 2021 to USD 25.3 billion by 2026, at a CAGR of 9.3% from 2021 to 2026. The point-of-use water treatment systems market is expected to witness significant growth in the future due to the increasing demand for clean drinking water, increasing water contamination, growing human population, growing awareness about the benefits of water treatment, and technological innovations in the water treatment industry. Water contamination occurs when pollutants are directly or indirectly discharged into the water without adequate treatment to remove harmful contaminants. The most important water contaminants created by human activities are microbial pathogens, nutrients, heavy metals, and persistent organic matter, as well as suspended sediments, pesticides, and oxygen-consuming substances.

Countertop units are projected to be the largest segment in the point-of-use water treatment systems market. Countertop units are also known as on-counter filters. These filters sit on the counter and are directly connected to the faucet. They consist of a diverter, allowing users to switch between unfiltered and filtered water. Counter-top units operate on reverse osmosis as well as activated carbon technologies.

The residential application mainly encompasses the use of point-of-use water treatment systems to produce potable water for domestic consumption. The residential water treatment application is expected to witness high growth due to the increasing need for treated drinking water, removal of unpleasant taste, odor, and discoloration, suspended solids, biodegradable organics, and pathogenic bacterial.

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