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W4383377856 startingPage "132000" @default.
W4383377856 abstract "The presence of exorbitant arsenic contamination in the aquatic environment causes astronomically immense health quandaries affecting millions of people, which may lead to death in the case of prolonged indigestion of arsenic-containing drinking water. Herein, we are reporting porous chelating resin with an iron precursor for the removal of arsenic ions from water. Weak acid cation resin was functionalized under varying experimental conditions to get a suitable resin with high arsenic uptake. The theoretical results revealed that the maximum Langmuir adsorption capacities of 3.27 mg g−1 and 1.13 mg g−1 were achieved for As(V) and As(III), respectively. The kinetics of adsorption followed the pseudo-second-order (PSO) model with a high determination coefficient (R2) of 0.9963 and 0.9895 for As(V) and As(III), respectively. The Adams-Bohart, Thomas, Yoon-Nelson, and Pore diffusion models were used to identify the breakthrough curve in the fixed bed adsorption column. The column performance improved with a larger bed height (55 cm), low concentration of influent (0.25 mg L−1), and low flow rate of influent (80 mL min−1). Under this condition, the breakthrough time and exhaustion time were 314 min and 408 min for As(V) and 124 min and 185 min for As(III), respectively." @default.
W4383377856 created "2023-07-07" @default.
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W4383377856 date "2023-10-01" @default.
W4383377856 modified "2023-10-17" @default.
W4383377856 title "Construction of arsenic selective chelating resin with iron precursor for removal of low-concentration arsenic: Breakthrough modeling and field deployment" @default.
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W4383377856 doi "https://doi.org/10.1016/j.jhazmat.2023.132000" @default.
W4383377856 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37473571" @default.
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