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Sustainable Waste Water Treatment in Developing Countries: A Case Study of IIT Kharagpur Campus

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Abstract

Treatment of wastewater and its reuse in irrigation and agriculture can mitigate the inevitable scarcity of safe drinking water in coming decades. For developing countries like India and especially in its under-privileged regions, it is high time to focus on sustainable wastewater treatment which will be economical and easy to construct, operate and maintain by unskilled users without much dependency on electricity. Addressing this issue, various sustainable methods of wastewater treatment was critically analyzed and the Waste Stabilization Pond system was selected. A facility was designed for 20,000 residents of Indian Institute of Technology Kharagpur campus based on its geo-climatic and wastewater characteristics. Detailed calculations were carried out to demonstrate the effluent quality with reduced BOD and E-coli is suitable for unrestricted irrigation. This project with minor customisation can act as a prototype for adjacent vast rural areas where land is available but water, electricity and skilled technicians are not. If implemented, this project will bear social benefits beyond campus such as water supply to drought prone areas, better harvest and rural employment. Moreover, it underpins government’ several initiatives to develop rural infrastructure and inclusive growth of the country.

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References

  1. ACCCRN: Asian Cities Climate Change Resilience Network (2015), http://www.acccrn.net. Accessed 6 May 2015

  2. R. Wheeler, Investing in Sustainable Rural and Impoverished Urban Development and Meeting Basic Human Needs: Response to Cluster One Question (Global Ecovillage Network, Findhorn, 2015)

  3. N.F. Gray, Water Technology: An Introduction for Environmental Scientists and Engineers, 3rd edn. (Elsevier, Oxford, 2010)

    Google Scholar 

  4. A.S. Stillwell, C.W. King, M.E. Webber, I.J. Duncan, A. Harbinger, Energy-water nexus in Texas. Ecol. Soc. 16(2), Art.2 (2010)

  5. C.S. Jhansi, S.K. Mishra, Wastewater treatment and reuse: sustainability options. Cons. J. Sustain. Dev. 10(1), 1–15 (2013)

    Google Scholar 

  6. IDFCL: Infrastructure Development Finance Co. Ltd. India infrastructure Report 2007: Rural infrastructure (Oxford Uni. Press, New Delhi, 2007)

  7. Dept. of Drinking Water Supply, Drinking Water Scenario in Rural Areas in the Country (Ministry of Rural Development, Govt. of India, New Delhi, 2008)

  8. Dept. of Drinking Water Supply, National Rural Drinking Water Programme (Ministry of Rural Development, Govt. of India, New Delhi, 2010)

  9. Planning Commission, Annual Report to the People on Infrastructure 2009–2010 (The Planning Commission, New Delhi, 2010)

  10. NREGA: National Rural Employment Generation Act (2015), http://www.nrega.nic.in. Accessed 2 February 2015

  11. MDWS: Ministry of Drinking Water & Sanitation, Report of the Working Group on Rural Domestic Water and Sanitation: 12th Five Year Plan (MDWS, New Delhi, 2011)

  12. B. Chakraborty, S. Das, MGNREGA and water management: sustainability issues of built forms in rural India. J. Constr. Dev. Ctries. 19(2), 33–50 (2014)

    Google Scholar 

  13. NIRD&PR: National Institute of Rural Development & Panchayat Raj, Development Initiative in the Identified Backward Villages in West Bengal (NIRD&PR, New Delhi, 2010)

  14. D. Ghosh, P. Datta, A. Bhattacharya, D. Sinha, D.Bhattacharya, The Backward Villages of West Bengal: An Exploratory Study (Institute of Social Science, New Delhi, 2009)

  15. WHO: World Health Organisation, Guidelines for the Safe Use of Wastewater, Excreta and Grey Water. Vol. 2: Wastewater Use in Agriculture (WHO, Geneva, 2006a)

  16. WHO: World Health Organisation, Guidelines for the Safe Use of Wastewater, Excreta and Greywater. Vol. 3: Wastewater and Excreta Use in Aquaculture (WHO, Geneva, 2006b)

  17. Ministry of Law & Justice, The National Food Security Act (2013), http://indiacode.nic.in/acts-in-pdf/202013.pdf. Accessed 2 February 2015

  18. A.K. Sadath, Sanitizing India through Technology, http://www.birac.nic.in/webcontent/Mr_Anvar_Eram.pdf. Accessed 2 June, 2016

  19. World Commission on Environment and Development, Our Common Future (Bruntland Report) (Oxford University Press, New York, 1987)

    Google Scholar 

  20. E. Feitelson, J. Chenowith, Water poverty: towards a meaningful indicator. Water Policy 4(3), 263–281 (2002)

    Article  Google Scholar 

  21. L. Mays, Water Resources Sustainability (McGraw-Hill Professional, New York, 2006)

    Google Scholar 

  22. D. Mara, Domestic Wastewater Treatment in Developing Countries (Earthscan, London, 2003)

    Google Scholar 

  23. D. Mara, Design Manual for Waste Stabilization Ponds in India (Lagoon Tech. Int. Ltd., Leeds, 1997)

    Google Scholar 

  24. J. Pinnekamp, H. Friedrich (eds.), Membrane Technology for Waste Water Treatment (FiW Verlag, Aachen, 2006)

    Google Scholar 

  25. National Drinking Water Clearinghouse, Technical Brief: Membranbe Filtration, http://www.nesc.wvu.edu/pdf/dw/publications/ontap/2009_tb/membrane_DWFSOM43.pdf. Accessed 2 June, 2015

  26. IS 14324: 1995 (Reaffirmed 2000), Geotextiles–Methods of test for determination of water permeability-permittivity. BIS (Bureau of Indian Standards), New Delhi, 1995

  27. IS 3025 (Part 44): 1993 (Reaffirmed 2003), Method of sampling and test (physical & chemical) for water & wastewater: Biochemical oxygen demand. BIS (Bureau of Indian Standards), New Delhi, 1993

  28. IS 3025 (Part 58), Method of sampling and test (physical. & chemical) for water and wastewater: Chemical Oxygen Demand. BIS (Bureau of Indian Standards), New Delhi, 2006

  29. IS 1622: 1981, Methods of sampling and microbiological exam of water. BIS (Bureau of Indian Standards), New Delhi, 1981

  30. IS 3025 (Part 11): 1983, Method of sampling and test (physical. & chemical) for water and wastewater: pH value (1st Rev.). BIS (Bureau of Indian Standards), New Delhi, 1983

  31. IS 3025 (Part 17): 1984, Methods of sampling and test (physical & chemical) for water and waste water: Non-filterable residue (Total suspended solids) (1st Rev.). BIS (Bureau of Indian Standards), New Delhi, 1984

  32. IS 3025 (Part 34), Method of sampling and test (physical & chemical) for water & wastewater: Nitrogen (1st Rev.). BIS (Bureau of Indian Standards), New Delhi, 1988

  33. IS 5194:1969 (Reaffirmed 2002), Method for determination of Nitrogen- Kjeldahl method. BIS (Bureau of Indian Standards), New Delhi, 1969

  34. S.K. Garg, Sewage Disposal and Air Prolusion Engineering (Khanna Publishers, New Delhi, 2005)

    Google Scholar 

  35. IS 5611: 1987 (Reaffirmed 2007), Code of practice for construction of waste stabilization ponds (Facultative type). BIS (Bureau of Indian Standards), New Delhi, (1987)

  36. CPWD: Central Public Works Dept., Delhi Schedule of Rates (CPWD, New Delhi, 2013)

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  1. Architecture and Regional Planning, Indian Institute of Technology Kharagpur, Kharagpur, India

    Sutapa Das & Sanjit Bokshi

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  1. Sutapa Das
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  2. Sanjit Bokshi
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Correspondence to Sutapa Das.

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Das, S., Bokshi, S. Sustainable Waste Water Treatment in Developing Countries: A Case Study of IIT Kharagpur Campus. J. Inst. Eng. India Ser. A 98, 127–134 (2017). https://doi.org/10.1007/s40030-017-0197-z

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  • DOI: https://doi.org/10.1007/s40030-017-0197-z

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