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Enhanced anaerobic digestion under medium temperature conditions: Augmentation effect of magnetic field and composites formed by titanium dioxide on the foamed nickel

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  • Zhao, Bo
  • Zheng, Pengfei
  • Yang, Yuyi
  • Sha, Hao
  • Cao, Shengxian
  • Wang, Gong
  • Zhang, Yanhui

Abstract

There is global interest in developing clean energy, especially using green production strategies. Increasing the production of methane by anaerobic digestion (AD) is a green strategy that greatly benefits agricultural waste management. This study investigated the effects of combining a static magnetic field (SMF) with a novel porous conductive compound (TiO2-FNi) with bioaffinity as an additive in the anaerobic digestion and methanation of corn stover. Total experimental methane production with an optimized TiO2-FNi concentration (2.82 g L−1) in an 11.4 mT SMF was 44.71% greater than the control. Analysis of the composition of the microbial community showed the greatest relative abundance of the electroactive microorganisms Bacteroidota and Sytrophomonas spp. (phylum Firmicutes), 52.06%, in TiO2-FNi colonies. These microorganisms increase electron exchange through direct interspecies electron transfer with methanogens to increase methane yield. We propose a possible mechanism for the increased methane production due to the TiO2-FNi –SMF combination, which promotes microbial growth and reproduction and increases direct interspecies electron transfer (DIET) between microorganisms. Recovery of the TiO2-FNi composite reached 99.29%, which indicates great potential for recycling the material. The energy conversion efficiency of AD using the TiO2-FNi –SMF combination was 43.68%, which was 13.20% greater than the control.

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  • Zhao, Bo & Zheng, Pengfei & Yang, Yuyi & Sha, Hao & Cao, Shengxian & Wang, Gong & Zhang, Yanhui, 2022. "Enhanced anaerobic digestion under medium temperature conditions: Augmentation effect of magnetic field and composites formed by titanium dioxide on the foamed nickel," Energy, Elsevier, vol. 257(C).
    • Handle: RePEc:eee:energy:v:257:y:2022:i:c:s0360544222016942
    DOI: 10.1016/j.energy.2022.124791
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