Assessment of Arsenic Contamination in Ground Water and its Suitable Removal Technology

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Assessment of Arsenic Contamination in Ground Water and its Suitable Removal Technology

Sunita Kumari

Author Affiliations

¹ K.M.P.M Vocational College, Jamshedpur Jharkhand 831005, INDIA

Int. Res. J. Environment Sci., Volume 4, Issue (9), Pages 33-38, September,22 (2015)

Abstract

Assessment of Arsenic contamination in ground water, soil and its suitable removal technology. Simulated experimental studies were carried out to understand the process and factors that efficiency of arsenic removal from groundwater .The main objective was to observed the kinetics of removal of arsenic from synthetic arsenic solutions by in-situ treatment under quiescent conditions and to investigate the effect of additives such as clay, iron oxides and their derivatives on the removal efficiency

References

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Jain C.K. and Ali I., Arsenic: occurrence, toxicity and speciation techniques, Water Res., 34(17), 4304-4312 (2000)
Anamika S. and Gopal P., Efficiency of DHR as a Biosorption of Arsenic, Int. Res. J. Environment Sci., 2(10), 71-76 (2013)
Sneha Navin, Amar Jyoti Das, Chhaya Verma, Manoj Kumar and Rajesh Kumar, Arsenic in the Environment effectuates Human Health: An Imperative Need to Focus, Int. Res. J. Environment Sci., 2(11), 101-105 (2013)
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Caussy D. and Priest N.D., Introduction to arsenic contamination and health risk assessment with special reference to Bangladesh, Rev. Environ. Contamin. Toxicol., 197, 1–15 (2008)

[ref1] Majumder R.K., Faisal B.M.R., Zaman M.N., Uddin M.J. and Sultana N Assessment of Heavy Metals Pollution in Bottom Sediment of the Buriganga River, Dhaka, Bangladesh by Multivariate Statistical Analysis., Int. Res. J. Environment Sci.,4(5), 80-84 (2015)

[ref2] Carbonell Barrachina A.A., Jugsujinda A., Burlo F., Delaune R.D., Arsenic chemistry in municipal sewage sludge as affected by redox potential and pH, Water Resource, 34, 216–224, (2007)

[ref3] Sushant K. Singh, Groundwater Arsenic Contamination in the Middle-Gangetic Plain, nmBihar (India): The Danger Arrived Int. Res. J. Environment Sci.,4(2), 70-76 (2015)

[ref4] Saheb S.U., Seshaiah S. and Viswanath B., Environment and Their Legal Issues in India, International Research Journal of Environment Sciences., 1(3), 44-51 (2012)

[ref5] Saha D., Sahu S. and Chandra P., Arsenic-Safe Alternate Aquifers and their Hydraulic Characteristics in Contaminated Areas of Middle Ganga Plain, Eastern India, Environmental monitoring and assessment., 175(1-4), 331-348 (2011)

[ref6] Eid I. Brima and Parvez I. Haris, Arsenic Removal from Drinking Water using Different Biomaterials and Evaluation of a Phytotechnology Based Filter, Res. J. chem. sci.,3(7), 39-44 (2014)

[ref7] Jain C.K. and Ali I., Arsenic: occurrence, toxicity and speciation techniques, Water Res., 34(17), 4304-4312 (2000)

[ref8] Anamika S. and Gopal P., Efficiency of DHR as a Biosorption of Arsenic, Int. Res. J. Environment Sci., 2(10), 71-76 (2013)

[ref9] Sneha Navin, Amar Jyoti Das, Chhaya Verma, Manoj Kumar and Rajesh Kumar, Arsenic in the Environment effectuates Human Health: An Imperative Need to Focus, Int. Res. J. Environment Sci., 2(11), 101-105 (2013)

[ref10] Mandal B.K. and Suzuki K.T., Arsenic round the world: a review, Talanta,58, 201–235 (2002)

[ref11] Caussy D. and Priest N.D., Introduction to arsenic contamination and health risk assessment with special reference to Bangladesh, Rev. Environ. Contamin. Toxicol., 197, 1–15 (2008)