Experimental Studies on Water Quality Analysis and Reduction of chromium at Aarang

Authors

  • Anisha Agrawal Department of Chemical Engineering, Raipur Institute of Technology, Raipur (C.G.) 492101, India
  • Dr. Debabrata Mukhopadhyay Department of Chemical Engineering, Raipur Institute of Technology, Raipur (C.G.) 492101, India
  • Ms. Nayanika Dasgupta Department of Chemical Engineering, Raipur Institute of Technology, Raipur (C.G.) 492101, India
  • Dr. Vaishali Pendese Department of Chemical Engineering, Raipur Institute of Technology, Raipur (C.G.) 492101, India

Keywords:

WQI, Area, Drinking Water Quality, Irrigation Water Quality, Groundwater Quality Assessment

Abstract

Groundwater is a primary source of drinking water in our country but day by day increment of groundwater contamination due to various anthropogenic activities and anthropogenic activities makes the life difficult especially for the rural people. Groundwater is getting contamination rapidly due to various anthropogenic activities as well as some natural sources. In the direction, assessment of water quality analysis is the basic requirement for nurturing human being and its evolution. Water Quality Index (WQI) parameter has been widely used in determining water quality globally. Conventional method used for computing WQI is tedious and takes longer time because it involved processing for larger datasets. The present investigation aims to provide the suitability of groundwater in the specified region using GIS (Geographic Information System) of physiochemical parameters, that are used in drinking purpose, domestic works and household chores. Locations are marked using GPS and the parameters are also used to find out about the WQI (Water Quality Index). The parameters are compared with the BIS (Bureau of India Standards) for checking the suitability of groundwater. This research also focuses on reducing the amount of chromium content in the samples, which is a heavy metal, by using organic materials. The present approach output can be beneficial to the administrators in making decisions on groundwater quality but also gaining inside into the trade of between system benefit and environment requirement.

References

Dhruw, M., & Pandey, V. K. (2023). Land surface temperature estimation of a distributary of Mahanadi canal command using LANDSAT-7 and LANDSAT-8 satellite data using Sebal algorithm for rice and wheat crops.

Atta, H. S., Omar, M. A. S., & Tawfik, A. M. (2022). Water quality index for assessment of drinking groundwater purpose case study: area surrounding Ismailia Canal, Egypt. Journal of Engineering and Applied Science, 69(1), 83.

Bushero, D. M., Angello, Z. A., & Behailu, B. M. (2022). Evaluation of hydrochemistry and identification of pollution hotspots of little Akaki river using integrated water quality index and GIS. Environmental challenges, 8, 100587.

Nathan, R. J., Barr, D., & Rosengren, R. J. (2022). Six fruit and vegetable peel beads for the simultaneous removal of heavy metals by biosorption. Environmental technology, 43(13), 1935-1952.

Sahu, D. K., Samadhiya, V. K., Chandrakar, T., Netam, S., & Sahu Mahendra, H. (2021). Macro and micro nutrient status of research farm, college of agriculture and research station Kurud. District Dhamtari, Chhatisgarh. The Pharma Innovation International Journal SP, 10(8), 32-35.

Oladipo, J. O., Akinwumiju, A. S., Aboyeji, O. S., & Adelodun, A. A. (2021). Comparison between fuzzy logic and water quality index methods: A case of water quality assessment in Ikare community, Southwestern Nigeria. Environmental Challenges, 3, 100038.

Singha, S., & Pasupuleti, S. (2020). Delineation of groundwater prospect zones in Arang block, Raipur district, Chhattisgarh, Central India, using analytical network process. Journal of the Geological Society of India, 95, 609-615.

Singh, S., Bhardwaj, A., & Verma, V. K. (2020). Remote sensing and GIS based analysis of temporal land use/land cover and water quality changes in Harike wetland ecosystem, Punjab, India. Journal of environmental Management, 262, 110355.

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Published

2023-12-28

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Articles

How to Cite

Experimental Studies on Water Quality Analysis and Reduction of chromium at Aarang. (2023). International Journal of Futuristic Innovation in Engineering, Science and Technology (IJFIEST), 2(3), 1-15. https://journal.inence.org/index.php/ijfiest/article/view/223

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