Supplies of drinking water may contain dangerous micropollutants and other persistent pesticides. Advanced treatment is necessary to selectively remove the chemicals from these challenging micropollutants, while ensuring that they do not harm our natural ecosystems or public health.
Depending on the kind and quality of the raw water, different treatment methods are used to produce drinking water. To guarantee that water is of a quality that is suitable for consumption, common treatment techniques include aeration, flocculation, sedimentation, filtration, disinfection and reverse osmosis.
Drinking water treatment
Industries now keep a close eye out for emerging pollutants of concern, as well as known compounds, thanks to improvements in water analysis technology.
With companies that have struggled with the treatment of drinking water including micropollutants, natural organic matter (NOM), and colour, which are of concern to both end users and regulators, Netsol Water has established long-lasting and successful collaborations and treatment technologies, including RO Plants.
Why is treating drinking water important?
Customers may complain to their water provider about the aesthetic quality of the water, due to taste, odour, and colour. Natural organic matter (NOM) and organic compounds with an earthy flavourcan be detected, and have an impact on water quality depending on the source of the water and the season.
To maintain the quality of their water, water companies are continuously looking for an effective and affordable solution, for the removal of impurities.
Difficult to treat substances in water
- Pathogens, which include bacteria, amoebas, and viruses are disease-causing organisms, and are among the difficult-to-treat contaminants found in drinking water supplies.
- Substances those are harmful as a result of human activity and industrial waste, such pesticides and fertilizers.
- Natural substances including fluorides, common salts, and arsenic, as well as chemicals and minerals.
- The taste, smell, colour, and turbidity of water can be affected by several non-harmful pollutants, such as zinc and iron.
What do the rules state?
Utility providers must adhere to stringent regulatory standards all around the world, to guarantee that drinking water is suitable for human use. It can have serious financial and reputational repercussions, if these constantly strict standards are not followed.
Modern water treatment techniques
The drinking water treatment systems from Netsol effectively treat source water, which contains persistent pesticides and other harmful pollutants, such as pharmaceutical by-products and industrial chemicals, and allow for the safe extraction and use of this water in places, where it would not have been possible in the past.
These treatment systems offer a reputable defence against developing toxins and micropollutants, in drinking water supplies. The systems' adaptability and modularity enable them to be optimised for treating water in varying amounts, while also guaranteeing treatment is resistant to tightening regulations in the future, assisting and supporting companies throughout India.
Long-term projects with corporations have used our technologies. One continuing research aims to give people with potable water by filtering organic particles, out of peaty reservoir water.
Best water treatment plant supplier and provider
Clean water is essential for safety and health. Preventative maintenance services are provided by Netsol Water to protect and keep your system working effectively. By keeping your water treatment systems in good working order, you can avoid spending money on expensive damage repairs. Maintenance of these systems is essential, and professionals are most qualified to handle it.
The knowledgeable specialists at Netsol have the training and credentials to quickly replace or repair, any damaged parts. We offer 24/7 contactless support so you can obtain assistance, with preventative maintenance whenever you need it. Consequently, we will assist you in preserving the purity of the water and the efficiency of water treatment plants.