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Simultaneous supplementation of magnetite and polyurethane foam carrier can reach a Pareto-optimal point to alleviate ammonia inhibition during anaerobic digestion

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Listed:
  • Yang, Ziyi
  • Sun, Hangyu
  • Kurbonova, Malikakhon
  • Zhou, Ling
  • Arhin, Samuel Gyebi
  • Papadakis, Vagelis G.
  • Goula, Maria A.
  • Liu, Guangqing
  • Zhang, Yi
  • Wang, Wen

Abstract

Material addition is a potential method to alleviate ammonia inhibition in the anaerobic digestion process. In this study, seven materials were selected to examine their impact on methane production (MP). In the batch experiment, the reactors with “Magnetite + foam carrier” exhibited nearly a 56% increase in maximum MP rate. Different strategies of magnetite and foam carrier addition were further explored in semi-continuous experiment. Adding two materials together (simultaneous supplementation) resulted in almost 60% increase in MP, 28–41% higher than when supplemented separately. Simultaneous supplementation of the two materials was considered as the Pareto-optimal solution for MP maximization. The acetogenic and methanogenic activities analyses revealed that foam carrier addition accelerated propionate transformation (from propionate to acetate or valerate) while magnetite addition intensified the methanogenesis step. Direct interspecies electron transfer (DIET) was strengthened with over 50% enrichment in DIET-related bacteria. The Anaerobic Digestion Model No.1 was modified with the development of liquid metabolite and biofilm, result in a goodness-of-fit of R2 > 0.96.16sRNA gene sequencing demonstrated that the microbes in the biofilm had kinetic advantages over those in the liquid phase, coupled with higher km and lower Ks values, which contributed to the enhanced MP.

Suggested Citation

  • Yang, Ziyi & Sun, Hangyu & Kurbonova, Malikakhon & Zhou, Ling & Arhin, Samuel Gyebi & Papadakis, Vagelis G. & Goula, Maria A. & Liu, Guangqing & Zhang, Yi & Wang, Wen, 2022. "Simultaneous supplementation of magnetite and polyurethane foam carrier can reach a Pareto-optimal point to alleviate ammonia inhibition during anaerobic digestion," Renewable Energy, Elsevier, vol. 189(C), pages 104-116.
  • Handle: RePEc:eee:renene:v:189:y:2022:i:c:p:104-116
    DOI: 10.1016/j.renene.2022.02.092
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    References listed on IDEAS

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    1. Yang, Ziyi & Wang, Wen & He, Yanfeng & Zhang, Ruihong & Liu, Guangqing, 2018. "Effect of ammonia on methane production, methanogenesis pathway, microbial community and reactor performance under mesophilic and thermophilic conditions," Renewable Energy, Elsevier, vol. 125(C), pages 915-925.
    2. Tsapekos, P. & Kougias, P.G. & Treu, L. & Campanaro, S. & Angelidaki, I., 2017. "Process performance and comparative metagenomic analysis during co-digestion of manure and lignocellulosic biomass for biogas production," Applied Energy, Elsevier, vol. 185(P1), pages 126-135.
    3. Massé, Daniel I. & Rajagopal, Rajinikanth & Singh, Gursharan, 2014. "Technical and operational feasibility of psychrophilic anaerobic digestion biotechnology for processing ammonia-rich waste," Applied Energy, Elsevier, vol. 120(C), pages 49-55.
    4. Shamurad, Burhan & Gray, Neil & Petropoulos, Evangelos & Tabraiz, Shamas & Membere, Edward & Sallis, Paul, 2020. "Predicting the effects of integrating mineral wastes in anaerobic digestion of OFMSW using first-order and Gompertz models from biomethane potential assays," Renewable Energy, Elsevier, vol. 152(C), pages 308-319.
    5. Li, Yue & Chen, Yinguang & Wu, Jiang, 2019. "Enhancement of methane production in anaerobic digestion process: A review," Applied Energy, Elsevier, vol. 240(C), pages 120-137.
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