HYDRAULIC DESIGN CONCEPT OF 6.60 MLD WATER TREATMENT PLANT
BIBHUTI BHUSAN SETHY
, ABHIJIT MANGARAJ
Access to a clean drinking water supply is of fundamental importance from a public health perspective, but there is increasing concern over demands on existing water supplies by a growing human population. Toxic substances may be present in both dissolved and particulate form in surface and subsurface (groundwater) drinking water supplies. Dosage (combining contaminant concentration and duration or frequency of exposure) is a key factor in the toxic impact of a xenobiotic substance in drinking water supplies. Drinking water supplies can also contain pathogenic organisms, which may result in serious health issues (cholera, dysentery, etc.).
Most of the developed world has access to treated drinking water supplies, but this is not true for most developing nations and for many rural areas in developed countries. Treated drinking water supplies seldom have levels of xenobiotic agents that are high enough to cause acute health effects. Health impacts of chronic exposure to low levels of chemical contaminants in treated drinking water are a more likely occurrence, but they are generally not well understood. Possible health effects from chronic exposure to low levels of contaminants include serious diseases such as cancer and impaired development.
If a rural drinking water supply system has to be retrofitted to meet the demands of water for livestock and kitchen gardens, then it has to be done in such a way that the retrofitted system takes water to the backyards of dwellings (in the case of kitchen gardens), or extra feeder pipes from the drinking water stand post and water troughs for animals. In certain cases, schemes to augment village drinking water sources are planned to make them capable of supplying water during summer months. Generally, recharge schemes are built in the vicinity of the water supply well so that the recharged water augments the output from the well.
"HYDRAULIC DESIGN CONCEPT OF 6.60 MLD WATER TREATMENT PLANT", IJNTI - INTERNATIONAL JOURNAL OF NOVEL TRENDS AND INNOVATION (www.IJNTI.org), ISSN:2984-908X, Vol.3, Issue 9, page no.142-189, September-2025, Available :https://rjpn.org/IJNTI/papers/IJNTITH00004.pdf
Volume 3
Issue 9,
September-2025
Pages : 142-189
Paper Reg. ID: IJNTI_231495
Published Paper Id: IJNTITH00004
Downloads: 000864
Research Area: Science and Technology
Country: Kendrapara, Odisha, India
ISSN: 2984-908X | IMPACT FACTOR: 9.57 Calculated By Google Scholar | ESTD YEAR: 2023
An International Scholarly Open Access Journal, Peer-Reviewed, Refereed Journal Impact Factor 9.57 Calculate by Google Scholar and Semantic Scholar | AI-Powered Research Tool, Multidisciplinary, Monthly, Multilanguage Journal Indexing in All Major Database & Metadata, Citation Generator
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