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Hydrogen Production by the Thermophilic Dry Anaerobic Co-Fermentation of Food Waste Utilizing Garden Waste or Kitchen Waste as Co-Substrate

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  • Na Wang

    (Lab of Biorefinery, Shanghai Advanced Research Institute, Chinese Academy of Sciences, No. 99 Haike Road, Pudong, Shanghai 201210, China
    University of Chinese Academy of Sciences, Beijing 100049, China
    These authors contributed equally to this work.)

  • Chunmeng Chui

    (Lab of Biorefinery, Shanghai Advanced Research Institute, Chinese Academy of Sciences, No. 99 Haike Road, Pudong, Shanghai 201210, China
    School of Medical Instrument and Food Engineering, University of Shanghai for Science and Technology, Shanghai 200093, China
    These authors contributed equally to this work.)

  • Siying Zhang

    (Lab of Biorefinery, Shanghai Advanced Research Institute, Chinese Academy of Sciences, No. 99 Haike Road, Pudong, Shanghai 201210, China
    University of Chinese Academy of Sciences, Beijing 100049, China)

  • Qianjing Liu

    (Lab of Biorefinery, Shanghai Advanced Research Institute, Chinese Academy of Sciences, No. 99 Haike Road, Pudong, Shanghai 201210, China
    School of Medical Instrument and Food Engineering, University of Shanghai for Science and Technology, Shanghai 200093, China)

  • Baoguo Li

    (School of Medical Instrument and Food Engineering, University of Shanghai for Science and Technology, Shanghai 200093, China)

  • Jiping Shi

    (Lab of Biorefinery, Shanghai Advanced Research Institute, Chinese Academy of Sciences, No. 99 Haike Road, Pudong, Shanghai 201210, China
    School of Life Science and Technology, Shanghai Tech University, Shanghai 201210, China)

  • Li Liu

    (Lab of Biorefinery, Shanghai Advanced Research Institute, Chinese Academy of Sciences, No. 99 Haike Road, Pudong, Shanghai 201210, China
    China Shanghai Engineering Research Center of Biotransformation of Organic Solid Waste, Shanghai 200241, China)

Abstract

Multicomponent collaborative anaerobic fermentation has been considered a promising technology for treating perishable organic solid wastes and producing clean energy. This study evaluated the potential of hydrogen production by thermophilic dry anaerobic co-fermentation of food waste (FW) with garden waste (GW) or kitchen waste (KW) as co-substrate. The results showed that when the ratio of FW to GW was 60:40, the maximum cumulative hydrogen production and organic matter removal rate reached 85.28 NmL g −1 VS and 63.29%, respectively. When the ratio of FW to KW was 80:20, the maximum cumulative hydrogen production and organic matter removal rate reached 81.31 NmL g −1 VS and 61.91%, respectively. These findings suggest that thermophilic dry anaerobic co-fermentation of FW using GW or KW as co-substrate has a greater potential than single-substrate fermentation to improve hydrogen production and the organic matter removal rate.

Suggested Citation

  • Na Wang & Chunmeng Chui & Siying Zhang & Qianjing Liu & Baoguo Li & Jiping Shi & Li Liu, 2022. "Hydrogen Production by the Thermophilic Dry Anaerobic Co-Fermentation of Food Waste Utilizing Garden Waste or Kitchen Waste as Co-Substrate," Sustainability, MDPI, vol. 14(12), pages 1-12, June.
    • Handle: RePEc:gam:jsusta:v:14:y:2022:i:12:p:7367-:d:840267
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    Citations

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    Cited by:

    1. Charalampos Toufexis & Dimitrios-Orfeas Makris & Christos Vlachokostas & Alexandra V. Michailidou & Christos Mertzanakis & Athanasia Vachtsiavanou, 2024. "Bridging the Gap between Biowaste and Biomethane Production: A Systematic Review Meta-Analysis Methodological Approach," Sustainability, MDPI, vol. 16(15), pages 1-28, July.
    2. Onwuemezie, Linus & Gohari Darabkhani, Hamidreza, 2024. "Biohydrogen production from solar and wind assisted AF-MEC coupled with MFC, PEM electrolysis of H2O and H2 fuel cell for small-scale applications," Renewable Energy, Elsevier, vol. 224(C).
    3. Olesia Havryliuk & Vira Hovorukha & Galyna Gladka & Artem Tymoshenko & Semen Kyrylov & Oleksandra Shabliy & Iryna Bida & Ruslan Mariychuk & Oleksandr Tashyrev, 2023. "A Noxious Weed Ambrosia artemisiifolia L. (Ragweed) as Sustainable Feedstock for Methane Production and Metals Immobilization," Sustainability, MDPI, vol. 15(8), pages 1-15, April.
    4. Machineni, Lakshmi & Deepanraj, B. & Chew, Kit Wayne & Rao, A. Gangagni, 2023. "Biohydrogen production from lignocellulosic feedstock: Abiotic and biotic methods," Renewable and Sustainable Energy Reviews, Elsevier, vol. 182(C).

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