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Abstract
The presence of toxic level of inorganic arsenic in groundwater used for drinking in Bangladesh and neighboring India is unfolding as one of the worst natural disaster in the region. The purpose of this work is to ascertain the chemical fate of arsenic and other metals in groundwater of Bangladesh. A combination of techniques was used to measure 24 metals, 6 anions, Eh , pH, dissolved oxygen, conductivity, and temperature to understand the distribution of components which were then used in computational chemical equilibrium model, MINEQL+, for detailed speciation. It was found that the fate of arsenic and its speciation were inextricably linked to the formation of hydrous ferric oxide (HFO) and its kinetic. The HFO induced natural attenuation removes 50–75% of total arsenic in first 24 h through a first order kinetics. Adsorption on HFO is the predominant mode of removal of arsenic, iron, manganese, and most trace metals. The equilibrium model points to the presence of excess active sites for the removal of arsenic. MINEQL+ shows that significantly higher concentration of HFO forming iron is required to remove arsenic below maximum contamination level (MCL) of 50 µg/L than predicted by stoichiometry. The practical implication of this work is the prediction of water quality based on models.
Acknowledgments
The authors gratefully acknowledge Mr. S. B. Rasul for some initial measurements and Mr. M. M. Rahman of SDC for assistance in kinetics experiment, and Dr. Dilip Chakraborty for anion analysis. AH gratefully acknowledges Prof. M. Alauddin of Wagner College, NY for his support in providing MINEQL+ software.