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    Accelerated degradation of orange G over a wide pH range in the presence of FeVO4

    New search for: Ou, Xiaoxia
    New search for: Yan, Jianfang
    New search for: Zhang, Fengjie
    New search for: Zhang, Chunhua

    Abstract In this study, FeVO4 was prepared and used as Fenton-like catalyst to degrade orange G (OG) dye. The removal of OG in an aqueous solution containing 0.5 g·L–1 FeVO4 and 15 mmol·L–1 hydrogen peroxide at pH 7.0 reached 93.2%. Similar rates were achieved at pH 5.7 (k = 0.0471 min–1), pH 7.0 (k = 0.0438 min–1), and pH 7.7 (k = 0.0434 min–1). The FeVO4 catalyst successfully overcomes the problem faced in the heterogeneous Fenton process, i.e., the narrow working pH range. The data for the removal of OG in FeVO4 systems containing H2O2 conform to the Langmuir–Hinshelwood model (R2 = 0.9988), indicating that adsorption and surface reaction are the two basic mechanisms for OG removal in the FeVO4–H2O2 system. Furthermore, the irradiation of FeVO4 by visible light significantly increases the degradation rate of OG, which is attributed to the enhanced rates of the iron cycles and vanadium cycles.

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    Accelerated degradation of orange G over a wide pH range in the presence of FeVO4

    New search for: Ou, Xiaoxia
    New search for: Yan, Jianfang
    New search for: Zhang, Fengjie
    New search for: Zhang, Chunhua

    Abstract In this study, FeVO4 was prepared and used as Fenton-like catalyst to degrade orange G (OG) dye. The removal of OG in an aqueous solution containing 0.5 g·L–1 FeVO4 and 15 mmol·L–1 hydrogen peroxide at pH 7.0 reached 93.2%. Similar rates were achieved at pH 5.7 (k = 0.0471 min–1), pH 7.0 (k = 0.0438 min–1), and pH 7.7 (k = 0.0434 min–1). The FeVO4 catalyst successfully overcomes the problem faced in the heterogeneous Fenton process, i.e., the narrow working pH range. The data for the removal of OG in FeVO4 systems containing H2O2 conform to the Langmuir–Hinshelwood model (R2 = 0.9988), indicating that adsorption and surface reaction are the two basic mechanisms for OG removal in the FeVO4–H2O2 system. Furthermore, the irradiation of FeVO4 by visible light significantly increases the degradation rate of OG, which is attributed to the enhanced rates of the iron cycles and vanadium cycles.

    Access

    Check access
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    Order at Subito €

    Accelerated degradation of orange G over a wide pH range in the presence of FeVO4

    New search for: Ou, Xiaoxia
    New search for: Yan, Jianfang
    New search for: Zhang, Fengjie
    New search for: Zhang, Chunhua

    Abstract In this study, FeVO4 was prepared and used as Fenton-like catalyst to degrade orange G (OG) dye. The removal of OG in an aqueous solution containing 0.5 g·L–1 FeVO4 and 15 mmol·L–1 hydrogen peroxide at pH 7.0 reached 93.2%. Similar rates were achieved at pH 5.7 (k = 0.0471 min–1), pH 7.0 (k = 0.0438 min–1), and pH 7.7 (k = 0.0434 min–1). The FeVO4 catalyst successfully overcomes the problem faced in the heterogeneous Fenton process, i.e., the narrow working pH range. The data for the removal of OG in FeVO4 systems containing H2O2 conform to the Langmuir–Hinshelwood model (R2 = 0.9988), indicating that adsorption and surface reaction are the two basic mechanisms for OG removal in the FeVO4–H2O2 system. Furthermore, the irradiation of FeVO4 by visible light significantly increases the degradation rate of OG, which is attributed to the enhanced rates of the iron cycles and vanadium cycles.

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    Title:

    Accelerated degradation of orange G over a wide pH range in the presence of FeVO4

    Contributors:

    Ou, Xiaoxia (author) / Yan, Jianfang (author) / Zhang, Fengjie (author) / Zhang, Chunhua (author)

    Published in:

    Frontiers of Environmental Science & Engineering ; 12 ; 1-7

    Publication date:

    2018-01-04

    Size:

    7 pages

    ISSN:

    2095-221X , 2095-2201

    DOI:

    https://doi.org/10.1007/s11783-018-1013-3

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Azo dye , Degradation , FeVO4 , Kinetics , Advanced oxidation processes Environment , Environment, general

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