Mobility of arsenic in the sub-surface environment: An integrated hydrogeochemical study and sorption model of the sandy aquifer materials
B Nath, S Chakraborty, A Burnol, D Stüben… - Journal of …, 2009 - Elsevier
Groundwater and aquifer materials have been characterized geochemically at a field site
located in the Chakdaha municipality of West Bengal, India. Sorption experiments were also
carried out on a sandy aquifer material to understand the mobility of arsenic (As) in the sub-
surface environments. The result shows that the areas associated with high groundwater As
(mean: 1.8 μM) is typically associated with low Eh (mean:− 129mV), and high Fe (mean:
0.11 mM), where Fe2+/Fe (OH) 3 couple is controlling groundwater redox potential. Analysis …
located in the Chakdaha municipality of West Bengal, India. Sorption experiments were also
carried out on a sandy aquifer material to understand the mobility of arsenic (As) in the sub-
surface environments. The result shows that the areas associated with high groundwater As
(mean: 1.8 μM) is typically associated with low Eh (mean:− 129mV), and high Fe (mean:
0.11 mM), where Fe2+/Fe (OH) 3 couple is controlling groundwater redox potential. Analysis …
Mobility of arsenic in the sub-surface environment: an integrated hydrogeochemical study and sorption model of the sandy aquifer materials.
BN Bibhash Nath, SC Sudipta Chakraborty, A Burnol… - 2009 - cabidigitallibrary.org
Groundwater and aquifer materials have been characterized geochemically at a field site
located in the Chakdaha municipality of West Bengal, India. Sorption experiments were also
carried out on a sandy aquifer material to understand the mobility of arsenic (As) in the sub-
surface environments. The result shows that the areas associated with high groundwater As
(mean: 1.8 µM) is typically associated with low Eh (mean:-129 mV), and high Fe (mean: 0.11
mM), where Fe2+/Fe (OH) 3 couple is controlling groundwater redox potential. Analysis of …
located in the Chakdaha municipality of West Bengal, India. Sorption experiments were also
carried out on a sandy aquifer material to understand the mobility of arsenic (As) in the sub-
surface environments. The result shows that the areas associated with high groundwater As
(mean: 1.8 µM) is typically associated with low Eh (mean:-129 mV), and high Fe (mean: 0.11
mM), where Fe2+/Fe (OH) 3 couple is controlling groundwater redox potential. Analysis of …
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