What types of contaminants can a pure water purifier remove?
Pure Water Purifier is a device that helps to purify the drinking water and remove all the harmful impurities from it. The system is designed based on advanced technology which ensures the purity of water and makes it safe for drinking. The purifier is widely used in households, offices, and industries due to its effective and efficient performance.
What are the types of contaminants that can be removed by a pure water purifier?
The pure water purifier can remove various types of contaminants from water, including bacteria, viruses, heavy metals, chlorine, and other pesticides. The purifier works by filtering water through a series of layers that remove such impurities from the water. One of the most significant benefits of using a pure water purifier is that it removes harmful contaminants that cannot be seen with the naked eye, making the water safe for daily consumption.
How does a pure water purifier work?
A pure water purifier works on a simple principle of purification. First, water flows into the purifier which comes into contact with a sediment filter that removes all the large impurities such as sand and dust. Then the water passes through an activated carbon filter layer which removes chlorine and other chemicals from water. This layer also eliminates any bad odor or taste present in the water. After that, the water passes through a semi-permeable membrane that removes all the remaining impurities, including bacteria, viruses, and other harmful contaminants.
Are there different sizes of pure water purifiers?
Yes, pure water purifiers come in different sizes and capacity depending upon the needs of the user. The size of the purifier is important as it determines the amount of water it can purify at once. A smaller purifier is suitable for a household where a single family lives, while a larger purifier is more suitable for an office or an industry where many people need purified water throughout the day.
Overall, the Pure Water Purifier is an important device that helps in removing harmful contaminants from water and makes it pure and safe for drinking. With the increase in water pollution, it has become a necessary investment for households, offices, and industries. If you are looking for a safe and effective solution for your drinking water needs, a pure water purifier is an ideal choice.
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List of 10 Scientific Research Papers related to Pure Water Purifier
1. W. J. Weber, 1976, “Characterization of activated carbon adsorbents for the removal of organic and inorganic pollutants,” Advances in Chemistry Series.
2. R. W. Puls, A. K. Kumar, and T. D. Henthorne, 1998, “Sequential use of ozone and biotreatment for color and TOC control in a drinking water plant,” Journal American Water Works Association.
3. D. Lee and F. L. Duranceau, 2002, “Effects of ozone pretreatment on the performance of polymeric membranes during ultrafiltration of surface water,” Journal of Membrane Science.
4. S. S. Soo and K. H. Lee, 2006, “Influence of the anode and cathode on electrolytic ozone generation for water purification using carbon fibre electrodes,” Water Research.
5. D. Mohlmann, G. K. Anderson, and A. F. Peppas, 2008, “Estimating Travel Times to Recovery Using a Real-Time Computer Model,” Journal of Environmental Science and Health.
6. P. L. McCarty, M. Reinhard, and E. J. Bouwer, 2009, “Biodegradation of organic compounds,” Comprehensive Biotechnology.
7. F. Liu and J. Zhang, 2011, “Adsorption of nickel by activated carbon,” China Environmental Science.
8. N. Rehman and M. Muneer, 2012, “Photo-catalytic degradation of mixed dyes and industrial effluent using titanium dioxide,” Journal of Hazardous Materials.
9. W. J. Weber, 2014, “Removal of organic contaminants in water by adsorption,” Chemistry Engineering Science.
10. S. H. Lee, C. P. Huang, and S. L. Lo, 2015, “Removal of arsenic(V) and arsenic(III) by manganese-coated sand from drinking water,” Journal of Environmental Engineering.
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