Photocatalytic remediation of γ-HCH contaminated soil induced by α-Fe_2O_3 and TiO_2 被引量：4

Photocatalytic remediation of γ-HCH contaminated soil induced by α-Fe_2O_3 and TiO_2

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摘要 Heterogeneous photocatalytic degradation of γ-HCH on soil surfaces was carried out to evaluate the photocatalytic effectiveness of α-Fe 2O 3 and TiO 2 toward degrading γ-HCH on soil surfaces. After being spiked with γ-HCH, soil samples were loaded with α-Fe 2O 3 or TiO 2 and exposed to UV-light irradiation. Different catalyst loads, 0%, 2%, 5%, 7%, and 10% (wt.)α-Fe 2O 3; 0%, 0.5%, 1%, 2:(wt.)TiO 2, were tested for up to 7 d irradiation. The effects of soil thickness, acidity, and humic substances were also investigated. The obtained results indicated that the γ-HCH photodegradation follows the pseudo-first-order kinetics. The addition of α-Fe 2O 3 or TiO 2 accelerates the photodegradation of γ-HCH, while the photodegradation rate decreases when the content of α-Fe 2O 3 exceeds 7%(wt.). The degradation rate increases with the soil pH value. Humic substances inhibit the photocatalytic degradation of γ-HCH. Pentachlorocyclohexene, tetrachlorocyclohexene, and trichlorobenzene are detected as photodegradation intermediates, which are gradually degraded with the photodegradation evolution. Heterogeneous photocatalytic degradation of γ-HCH on soil surfaces was carried out to evaluate the photocatalytic effectiveness of α-Fe 2O 3 and TiO 2 toward degrading γ-HCH on soil surfaces. After being spiked with γ-HCH, soil samples were loaded with α-Fe 2O 3 or TiO 2 and exposed to UV-light irradiation. Different catalyst loads, 0%, 2%, 5%, 7%, and 10% (wt.)α-Fe 2O 3; 0%, 0.5%, 1%, 2:(wt.)TiO 2, were tested for up to 7 d irradiation. The effects of soil thickness, acidity, and humic substances were also investigated. The obtained results indicated that the γ-HCH photodegradation follows the pseudo-first-order kinetics. The addition of α-Fe 2O 3 or TiO 2 accelerates the photodegradation of γ-HCH, while the photodegradation rate decreases when the content of α-Fe 2O 3 exceeds 7%(wt.). The degradation rate increases with the soil pH value. Humic substances inhibit the photocatalytic degradation of γ-HCH. Pentachlorocyclohexene, tetrachlorocyclohexene, and trichlorobenzene are detected as photodegradation intermediates, which are gradually degraded with the photodegradation evolution.

作者 ZHAOXu QUANXie ZHAOYa-zhi ZHAOHui-min CHENShuo CHENJing-wen

机构地区 DepartmentofEnvironmentalScienceandTechnology

出处《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2004年第6期938-941,共4页 环境科学学报（英文版）

基金 TheNationalNaturalScienceFoundationofChina(No .2 97770 0 3),andMinistryofEducationofChina(No .0 0 0 2 8)

关键词 photocatalytic degradation Γ-HCH soil surfaces α-Fe 2O 3 TiO 2 photocatalytic degradation γ-HCH soil surfaces α-Fe 2O 3 TiO 2

分类号 X592 [环境科学与工程—环境工程]

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Journal of Environmental Sciences

2004年第6期

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Photocatalytic remediation of γ-HCH contaminated soil induced by α-Fe_2O_3 and TiO_2 被引量：4

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