Physicochemical analysis of wastewater discharge and impact on Ganges River of major cities of North India

The inadequate practice of discharge of wastewater into receiving water bodies alters physicochemical parameters, which ultimately disturbs the livelihood of aquatic flora and fauna. The present study was focussed on the evaluation of the efficiencies of wastewater treatment plants based on differen...

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Bibliographic Details
Published in:Water science & technology. Water supply 2022-06, Vol.22 (6), p.6157-6178
Main Authors: Soni, Ramendra, Pal, Arun Kumar, Tripathi, Pooja, Jha, Pawan Kumar, Tripathi, Vijay
Format: Article
Language:English
Subjects:
Alkalinity
Ammonia
Ammonium nitrogen
Aquatic animals
Aquatic fauna
Aquatic plants
Biofilms
Chemical oxygen demand
Correlation analysis
Developing countries
Efficiency
Eutrophication
Factor analysis
Flora
Freshwater resources
ganges river
Inlets (waterways)
Irrigation water
LDCs
Nitrates
Nutrients
Outlets
Parameters
Pathogens
Physicochemical analysis
physicochemical parameters
Physicochemical processes
Physicochemical properties
Pollutants
Pollution
Receiving waters
Rivers
seasonal variation
Seasons
Software packages
Variance analysis
wastewater
Wastewater analysis
Wastewater discharges
Wastewater treatment
wastewater treatment plant
Wastewater treatment plants
Water discharge
Water hardness
Water treatment
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Summary:The inadequate practice of discharge of wastewater into receiving water bodies alters physicochemical parameters, which ultimately disturbs the livelihood of aquatic flora and fauna. The present study was focussed on the evaluation of the efficiencies of wastewater treatment plants based on different technologies through analysing the physicochemical parameters of wastewater collected from each treatment step including inlet, outlet and downstream Ganges River in Prayagraj, Varanasi and Kanpur (India) during winter and summer seasons. The removal efficiency of the MBBR technology of Prayagraj WWTP was observed to be better than that of the ASP and UASB technologies of Varanasi and Kanpur respectively for both seasons. Correlation analysis explained the strong negative correlation of pH and DO with nearly all the parameters of the study; whereas TDS, hardness, ammonia and BOD were highly correlated with each other in each city. The factor analysis suggested the best fit amongst the physicochemical parameters, with four factors elucidating 78.00% of the total variance, which further explained that DO, TDS, total alkalinity, nitrate, COD, and temperature were the major components for pollution. The results indicated that most of the samples were not appropriate for direct discharge into water bodies and irrigation purposes and thus needed further implementation of advanced technologies in their treatment procedure.
ISSN:1606-9749
1607-0798
DOI:10.2166/ws.2022.185