THE PROCESS OF WASTEWATER TREATMENT BY PHYSICAL-CHEMICAL METHODS
Abstract
Wastewater treatment through physical-chemical methods stands as a cornerstone in the preservation of environmental integrity and public health. This abstract provides a concise overview of the process, elucidating its key components and objectives. Beginning with coagulation and flocculation, wherein chemical agents induce the aggregation of contaminants, the process progresses to sedimentation, filtration, and adsorption, each stage targeting specific pollutants for removal. Finally, disinfection ensures the elimination of harmful microorganisms, rendering the treated water safe for discharge or reuse. Through a synergistic combination of physical and chemical mechanisms, wastewater treatment embodies a vital nexus of science, engineering, and environmental stewardship, safeguarding water resources for present and future generations.
References
Seidel, M., & Niessner, R. (2014). Ammonia Sensors and Their Applications—A Review. Sensors, 14(3), 4448-4467.
Lu, L., & Kimmel, W. G. (2016). Ammonia removal from wastewater by ion exchange in fixed-bed columns. Journal of Environmental Chemical Engineering, 4(2), 2131-2140.
Zhang, Y., Zhang, B., & Li, G. (2018). Review on the Treatment and Valorization of Ammonia Wastewater. Molecules, 23(6), 1417.
Azamat, Y., & Fayzulloh, S. (2022). DEVELOPMENT OF A WIRELESS WATER QUALITY MONITORING SYSTEM FOR WATER TREATMENT FACILITIES. Universum: технические науки, (5-10 (98)), 23-26.
ALIJONOVICH, Y. A. (2022). DEVELOPMENT OF A WIRELESS WATER QUALITY MONITORING SYSTEM FOR WATER TREATMENT FACILITIES. Unversum: технические науки. Url: https://scienceweb.uz/publication/11271
ALIJONOVICH, Y. A. (2022). DESIGN OF WIRELESS WATER QUALITY MONITORING SYSTEM FOR WATER TREATMENT FACILITIES. EPRA International Journal of Research and Development (IJRD). Url: https://scienceweb.uz/publication/11262
Fazliddin o‘g‘li, S. F. (2023). IOT (INTERNET OF THINGS) GA ASOSLANGAN OQAVA VA CHIQINDI SUVLARI SIFATI MONITORINGI TIZIMINI LOYIHALASH. Mexatronika va robototexnika: muammolar va rivojlantirish istiqbollari, 1(1), 414-417. Url: https://michascience.com/index.php/mrmri/article/view/140
Downloads
Published
Issue
Section
License
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
