Effect of pH on PCP Remediation by Smectite Supported Pd / Fe

Bing Tao Liu; Guang Yu Zhu; Jia Yi Pu

doi:10.4028/www.scientific.net/AMR.634-638.3071

Paper Titles

Surface Hydrophobic Modification of T-ZnOw with Silane Coupling Agent
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Novel Synthesis and Characterization of Titanium Carbide Coatings on Graphite Flakes
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Dissolution of Pyrite Particles by Chemical Oxidation and Bioleaching
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Dynamic Study on Lime Carbonation
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Effect of pH on PCP Remediation by Smectite Supported Pd / Fe
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Microstructure Refinement of Medium Carbon Steel through Ti Deoxidation
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Influence on Concentration of Magnetite with Changing of Fe³⁺/Fe²⁺ in Copper Slag
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Removal of Boron from Metallurgical Grade Silicon by Chloride Molten Salt
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Simulation of the Coupled Mass Transfer and Gas-Solid Reaction in Porous Packed Beds
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Effect of pH on PCP Remediation by Smectite Supported Pd / Fe

Abstract:

Due to its influence on iron corrosion and involvement in dechlorination reaction, the concentration of H+ is crucial to the reactivity and efficiency of nanosized Pd /Fe. In this study, PCP dechlorination by smectite-templated Pd/Fe was studied and the effect of pH on PCP dechlorination was investigated in detail. The reaction rate constant is critically dependant on the reaction pH over the range 6.0~10.0. The dechlorination rate increases rapidly with decreasing the reaction pH value when the pH is 6.0~8.0. The rate change is up to 3.346 folds with decreasing of per pH unit while it decreases down to 0.3338 when pH is in the range 8.0~10.0. The reductive efficiency of zero-valent iron (ZVI) was further investigated by spiking excess PCP in the reaction system. The maximal reaction efficiency of ZVI for PCP dechlorination attains to 78% when pH is 9.0. The difference between the dechlorination rate and reductive efficiency with respect to reaction pH suggest that ZVI could not be effectively utilized to reduce PCP under acidic condition.