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Livestock Agriculture Greenhouse Gases for Electricity Production: Recent Developments and Future Perspectives

Author

Listed:
  • Chrysanthos Maraveas

    (Department of Natural Resources and Agricultural Engineering, Agricultural University of Athens, 11855 Athens, Greece)

  • Eleni Simeonaki

    (Department of Natural Resources and Agricultural Engineering, Agricultural University of Athens, 11855 Athens, Greece
    Department of Industrial Design and Production Engineering, University of West Attica, 12244 Egaleo, Greece)

  • Dimitrios Loukatos

    (Department of Natural Resources and Agricultural Engineering, Agricultural University of Athens, 11855 Athens, Greece)

  • Konstantinos G. Arvanitis

    (Department of Natural Resources and Agricultural Engineering, Agricultural University of Athens, 11855 Athens, Greece)

  • Thomas Bartzanas

    (Department of Natural Resources and Agricultural Engineering, Agricultural University of Athens, 11855 Athens, Greece)

  • Marianna I. Kotzabasaki

    (Department of Natural Resources and Agricultural Engineering, Agricultural University of Athens, 11855 Athens, Greece)

Abstract

The focus of this review paper was to investigate innovations currently employed to capture and use greenhouse gases produced within livestock farms for energy production and expected future directions. The methods considered for data collection regarded a systematic review of the literature, where 50 journal articles were critically reviewed. The main findings identified that the conventional method used in transforming livestock agriculture greenhouse gases into energy regards the combustion of biogas. However, emerging methods encompass microbial fuel cells, dry biogas reforming, steam biogas reforming, auto thermal Chemical Looping Reforming (CLRa), and gas-to-liquid methods that convert methane to liquid hydrocarbons. The conclusions from the review are that there is a potential to integrate these methods in livestock agriculture in order to generate energy from greenhouse emissions and reduce the reliance on fossil fuels.

Suggested Citation

  • Chrysanthos Maraveas & Eleni Simeonaki & Dimitrios Loukatos & Konstantinos G. Arvanitis & Thomas Bartzanas & Marianna I. Kotzabasaki, 2023. "Livestock Agriculture Greenhouse Gases for Electricity Production: Recent Developments and Future Perspectives," Energies, MDPI, vol. 16(9), pages 1-49, May.
    • Handle: RePEc:gam:jeners:v:16:y:2023:i:9:p:3867-:d:1137849
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    References listed on IDEAS

    as
    1. Yongxi Ma & Lu Zhang & Shixiong Song & Shuao Yu, 2022. "Impacts of Energy Price on Agricultural Production, Energy Consumption, and Carbon Emission in China: A Price Endogenous Partial Equilibrium Model Analysis," Sustainability, MDPI, vol. 14(5), pages 1-14, March.
    2. Philip Shine & John Upton & Paria Sefeedpari & Michael D. Murphy, 2020. "Energy Consumption on Dairy Farms: A Review of Monitoring, Prediction Modelling, and Analyses," Energies, MDPI, vol. 13(5), pages 1-25, March.
    3. Sascha Kraus & Matthias Breier & Sonia Dasí-Rodríguez, 2020. "The art of crafting a systematic literature review in entrepreneurship research," International Entrepreneurship and Management Journal, Springer, vol. 16(3), pages 1023-1042, September.
    4. Shirzad, Mohammad & Kazemi Shariat Panahi, Hamed & Dashti, Behrouz B. & Rajaeifar, Mohammad Ali & Aghbashlo, Mortaza & Tabatabaei, Meisam, 2019. "A comprehensive review on electricity generation and GHG emission reduction potentials through anaerobic digestion of agricultural and livestock/slaughterhouse wastes in Iran," Renewable and Sustainable Energy Reviews, Elsevier, vol. 111(C), pages 571-594.
    5. Julio E. Hilgert & Barbara Amon & Thomas Amon & Vitaly Belik & Federico Dragoni & Christian Ammon & Aura Cárdenas & Søren O. Petersen & Christiane Herrmann, 2022. "Methane Emissions from Livestock Slurry: Effects of Storage Temperature and Changes in Chemical Composition," Sustainability, MDPI, vol. 14(16), pages 1-19, August.
    6. Zhiyong Jason Ren, 2017. "Microbial fuel cells: Running on gas," Nature Energy, Nature, vol. 2(6), pages 1-2, June.
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