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    Photocatalytic Phenol Degradation by Immobilized Nano ZnO:

    Intermediates & Key Operating Parameters

    New search for: Malayeri, H. Zamankhan
    New search for: Ayati, B.
    New search for: Ganjidoust, H.

    Phenol is a toxic and refractory water pollutant that cannot be completely degraded through common wastewater treatment methods. In this study, the aqueous oxidation of phenol over ZnO was investigated as a potential method for abatement of this pollutant. Concrete was used as the immobilized surface, and activation energy was provided with 8W UV‐A lamps. Scanning Electron Microscope (SEM) test results also confirmed an appropriate cover of ZnO on the concrete surface. The effects of operating parameters such as initial phenol concentration, light intensity, dosage of ZnO particles, and pH were studied. The photocatalytic system afforded the highest degradation efficiency at C0= 50 mg L−1, ZnO=80 gr m−2, pH=11, light intensity= 32 W, and more than 90% of the initial phenol was degraded after five hours. The type of secondary products was also determined by GC‐Mass test. The results showed that this method is successful in reducing the toxicity.

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    Photocatalytic Phenol Degradation by Immobilized Nano ZnO:

    Intermediates & Key Operating Parameters

    New search for: Malayeri, H. Zamankhan
    New search for: Ayati, B.
    New search for: Ganjidoust, H.

    Phenol is a toxic and refractory water pollutant that cannot be completely degraded through common wastewater treatment methods. In this study, the aqueous oxidation of phenol over ZnO was investigated as a potential method for abatement of this pollutant. Concrete was used as the immobilized surface, and activation energy was provided with 8W UV‐A lamps. Scanning Electron Microscope (SEM) test results also confirmed an appropriate cover of ZnO on the concrete surface. The effects of operating parameters such as initial phenol concentration, light intensity, dosage of ZnO particles, and pH were studied. The photocatalytic system afforded the highest degradation efficiency at C0= 50 mg L−1, ZnO=80 gr m−2, pH=11, light intensity= 32 W, and more than 90% of the initial phenol was degraded after five hours. The type of secondary products was also determined by GC‐Mass test. The results showed that this method is successful in reducing the toxicity.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Photocatalytic Phenol Degradation by Immobilized Nano ZnO:

    Intermediates & Key Operating Parameters

    New search for: Malayeri, H. Zamankhan
    New search for: Ayati, B.
    New search for: Ganjidoust, H.

    Phenol is a toxic and refractory water pollutant that cannot be completely degraded through common wastewater treatment methods. In this study, the aqueous oxidation of phenol over ZnO was investigated as a potential method for abatement of this pollutant. Concrete was used as the immobilized surface, and activation energy was provided with 8W UV‐A lamps. Scanning Electron Microscope (SEM) test results also confirmed an appropriate cover of ZnO on the concrete surface. The effects of operating parameters such as initial phenol concentration, light intensity, dosage of ZnO particles, and pH were studied. The photocatalytic system afforded the highest degradation efficiency at C0= 50 mg L−1, ZnO=80 gr m−2, pH=11, light intensity= 32 W, and more than 90% of the initial phenol was degraded after five hours. The type of secondary products was also determined by GC‐Mass test. The results showed that this method is successful in reducing the toxicity.

    Access

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    Check availability in my library
    Order at Subito €

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    Document information
    Title:

    Photocatalytic Phenol Degradation by Immobilized Nano ZnO:

    Subtitle:

    Intermediates & Key Operating Parameters

    Contributors:

    Malayeri, H. Zamankhan (author) / Ayati, B. (author) / Ganjidoust, H. (author)

    Published in:

    Water Environment Research ; 86 ; 771-778

    Publication date:

    2014-09-01

    Size:

    8 pages

    ISSN:

    1554-7531 , 1061-4303

    DOI:

    https://doi.org/10.2175/106143014X13975035526301

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    photocatalyst , concrete surface , removal , UV lamp

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