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Bioelectrochemical methane production from CO2 by Methanosarcina barkeri via direct and H2-mediated indirect electron transfer

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  • Bai, Yang
  • Zhou, Lei
  • Irfan, Muhammad
  • Liang, Tian-Tian
  • Cheng, Lei
  • Liu, Yi-Fan
  • Liu, Jin-Feng
  • Yang, Shi-Zhong
  • Sand, Wolfgang
  • Gu, Ji-Dong
  • Mu, Bo-Zhong

Abstract

Electromethanogenesis is a promising strategy for bioconversion of CO2 to CH4 via direct electron transfer (DET) and/or H2-mediated indirect electron transfer (IET). However, specific contribution ratios of DET or H2-mediated IET are unclear. Here, pathway preferences were firstly calculated in the “cage” type cathode colonized by Methanosarcina barkeri. The highest CH4 production rate of 4.4 μmol cm−2•day−1 was detected from 36 to 72 h at −1.2 V. The average ratios of H2-mediated IET were calculated as 59.73 ± 8.29%, 69.45 ± 20.75%, 69.55 ± 18.30% and 82.97 ± 16.13% at −0.6, −0.8, −1.0 and −1.2 V (vs SHE), respectively. While above −0.4 V, only the DET pathway was detected. The real time polymerase-chain reaction amplification at the transcriptional level of ccdA and frhB showed the similar trend for the pathway preference in CH4 production. Results provide specific ratios and preference of CH4 production via these two pathways, which may be used for parameter reference for industrial applications.

Suggested Citation

  • Bai, Yang & Zhou, Lei & Irfan, Muhammad & Liang, Tian-Tian & Cheng, Lei & Liu, Yi-Fan & Liu, Jin-Feng & Yang, Shi-Zhong & Sand, Wolfgang & Gu, Ji-Dong & Mu, Bo-Zhong, 2020. "Bioelectrochemical methane production from CO2 by Methanosarcina barkeri via direct and H2-mediated indirect electron transfer," Energy, Elsevier, vol. 210(C).
    • Handle: RePEc:eee:energy:v:210:y:2020:i:c:s036054422031553x
    DOI: 10.1016/j.energy.2020.118445
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    References listed on IDEAS

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    1. Ma, Lei & Zhou, Lei & Mbadinga, Serge Maurice & Gu, Ji-Dong & Mu, Bo-Zhong, 2018. "Accelerated CO2 reduction to methane for energy by zero valent iron in oil reservoir production waters," Energy, Elsevier, vol. 147(C), pages 663-671.
    2. Ma, Lei & Zhou, Lei & Ruan, Meng-Ya & Gu, Ji-Dong & Mu, Bo-Zhong, 2019. "Simultaneous methanogenesis and acetogenesis from the greenhouse carbon dioxide by an enrichment culture supplemented with zero-valent iron," Renewable Energy, Elsevier, vol. 132(C), pages 861-870.
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    1. Guo, Xiaobo & Chen, Huize & Zhu, Xianqing & Xia, Ao & Liao, Qiang & Huang, Yun & Zhu, Xun, 2021. "Revealing the role of conductive materials on facilitating direct interspecies electron transfer in syntrophic methanogenesis: A thermodynamic analysis," Energy, Elsevier, vol. 229(C).
    2. D’ Silva, Tinku Casper & Isha, Adya & Chandra, Ram & Vijay, Virendra Kumar & Subbarao, Paruchuri Mohan V. & Kumar, Ritunesh & Chaudhary, Ved Prakash & Singh, Harjit & Khan, Abid Ali & Tyagi, Vinay Kum, 2021. "Enhancing methane production in anaerobic digestion through hydrogen assisted pathways – A state-of-the-art review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 151(C).
    3. Fares Almomani & Amera Abdelbar & Sophia Ghanimeh, 2023. "A Review of the Recent Advancement of Bioconversion of Carbon Dioxide to Added Value Products: A State of the Art," Sustainability, MDPI, vol. 15(13), pages 1-30, July.
    4. Pelaz, Guillermo & González-Arias, Judith & Mateos, Raúl & Escapa, Adrián, 2023. "Electromethanogenesis for the conversion of hydrothermal carbonization exhaust gases into methane," Renewable Energy, Elsevier, vol. 216(C).
    5. Chen, Dan & Pei, Haoyi & Zhou, Ningli & Xiao, Zhixing, 2024. "CO2 reduction to CH4 by Methanosarcina barkeri and a mixed methanogenic culture using humin as sole electron donor," Energy, Elsevier, vol. 294(C).

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