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      • Both physico-chemical and biological methods can be employed for the conversion of biowaste into bio-products and bioenergy. Physico-chemical methods include hydrothermal carbonization, gasification, and pyrolysis whereas biological methods are fermentation, transesterification, composting, fermentation, and anaerobic digestion,.
      www.sciencedirect.com/science/article/pii/S0016236122040455

      A review on regeneration of biowaste into bio-products and ...

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  3. bmcenergy.biomedcentral.com › articles › 10Waste to bioenergy: a review on the recent conversion ...

    May 16, 2019 · The present review has revealed that many waste-to-bioenergy technological routes are made available to produce bioenergy from waste feedstock/substrates. Waste utilization is supposedly to be the most economical process for renewable energy production, coupled with its complementary benefit that is to clean the environment.

    • Sze Ying Lee, Revathy Sankaran, Kit Wayne Chew, Chung Hong Tan, Rambabu Krishnamoorthy, Rambabu Kris...
    • 2019

  4. www.sciencedirect.com › science › articleA review on regeneration of biowaste into bio-products and ...

    Apr 15, 2023 · The processes for conversion entail converting biomass waste into various fuels that can be used to produce energy. Most of these techniques are thermochemical in nature. The thermochemical conversion process quickly produces biofuel with a high yield and selectivity.

  5. www.sciencedirect.com › science › articleBioenergy and bio-products from bio-waste and its associated ...

    Jan 1, 2022 · Waste to energy (WtE) can be converted via traditional methods such as composting, bioethanol production, and waste incineration, or via advanced technical methods such as biomethanation, waste biorefinery, and biohydrogen production.

    • Archana Jain, Archana Jain, Surendra Sarsaiya, Mukesh Kumar Awasthi, Mukesh Kumar Awasthi, Ranjan Si...
    • 2022

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  7. www.sciencedirect.com › science › articleWaste biorefinery to produce renewable energy: Bioconversion ...

    Nov 1, 2023 · The present review thus investigates how mass-generated food waste can be used to produce valuable bioproducts through bioconversion techniques such as oleaginous metabolism, anaerobic fermentation, and solventogenesis.

  8. www.energy.gov › eere › bioenergyWaste-to-Energy - Department of Energy

    WTE resources considered include organic waste, such as food waste, wastewater sludge, animal manure, and fats, oils, and greases, as well as municipal solid waste streams such as paper, cardboard, wood, yard waste, and plastic waste.

  9. link.springer.com › chapter › 10Biomass Waste and Bioenergy Production: Challenges and ...

    Mar 15, 2024 · Biomass wastes, including agricultural residues, forest residues, food waste, and municipal solid waste, are considered a promising feedstock for bioenergy production due to their abundance and potential to reduce greenhouse gas emissions.

  10. link.springer.com › chapter › 10Bioenergy from Agro-waste: A Sustainable Solution for Energy ...

    Sustainable Clean Energy Production Using Waste Biomass. Neeta Singh, Shashi Bala Gautam, Ghazi Mohd Sawood, Vijay Laxmi Yadav, Gaurav Mishra, Shobhit Dixit & S. K. Gupta. Part of the book series: Clean Energy Production Technologies ( (CEPT)) 95 Accesses. 1 Citations. Abstract.