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Barrett, R.A., Parsons, S.A., 1998. The influence of magnetic fields on calcium carbonate precipitation. Water Research, 32 (3): 609-612.

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Study of Electromagnetic Waves on Industrial Waste Water

1Department of Chemical Engineering, NIT, Raipur

2Department of Electrical and Electronic, NIT, Raipur

Physics and Materials Chemistry. 2013, Vol. 1 No. 2, 34-40
DOI: 10.12691/pmc-1-2-5
Copyright © 2013 Science and Education Publishing

Cite this paper:
M. Srinivasa Rao, Omprakash Sahu. Study of Electromagnetic Waves on Industrial Waste Water. Physics and Materials Chemistry. 2013; 1(2):34-40. doi: 10.12691/pmc-1-2-5.

Correspondence to: Omprakash  Sahu, Department of Electrical and Electronic, NIT, Raipur. Email:


Wastewater treatment is essential to protecting the environment and human welfare. Water is a resource that is fundamental to human life, which makes taking action to protect the resource on the forefront of research. Treated wastewater effluent is a possible source that can pollute receiving water bodies and cause contamination. It is often discharged into larger bodies of water that are used in people’s everyday lives. A new and novel approach technology is introduced to treat the waste water. Electromagnetic waste water is old but approached in new way to reduce the pollutant level. By applying this method chemical oxygen demand 1500mg, hardness80mg/l, suspended soild 65mg/l was reduced respectively. The purpose of the research described herein is to test the feasibility of alternative wastewater by electromagnetic methods. Treatment facilities are implementing alternative technologies, though the cost and efficiency associated with these practices leave much room in the wastewater field for innovation.