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Batch anaerobic co-digestion of OFMSW (organic fraction of municipal solid waste), TWAS (thickened waste activated sludge) and RS (rice straw): Influence of TWAS and RS pretreatment and mixing ratio

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  • Abudi, Zaidun Naji
  • Hu, Zhiquan
  • Sun, Na
  • Xiao, Bo
  • Rajaa, Nagham
  • Liu, Cuixia
  • Guo, Dabin

Abstract

The biochemical methane potential of co-digestion of OFMSW (organic fraction of municipal solid waste), TWAS (thickened waste activated sludge) (thermal and thermo-alkaline pretreated) and RS (rice straw) (NaOH and H2O2 pretreated) were investigated in this paper. The batch experiments were conducted at three different OFMSW/TWAS/RS (volume basis) ratios of 1:1.5:1.5, 1:0.5:0.5, and 3:0.5:0.5, respectively. In addition, to predict the biogas yield and evaluate the kinetic parameters, modified Gompertz model was introduced. A 3:0.5:0.5 ratio of OFMSW mixed with thermo-alkaline-treated TWAS and H2O2-treated RS produced the highest biogas production (558.5 L/kgVSadded) and the highest VS (volatile solids) removal efficiency (76.9%) due to the synergistic effect. The modified Gompertz model (R2: 0.868–0.998 and 0.910–0.999 for mono- and co-digestions, respectively) showed a good fit to the experimental results and the estimated parameters indicated that the pretreatments and co-digestion of substrates markedly improved the biogas production rate.

Suggested Citation

  • Abudi, Zaidun Naji & Hu, Zhiquan & Sun, Na & Xiao, Bo & Rajaa, Nagham & Liu, Cuixia & Guo, Dabin, 2016. "Batch anaerobic co-digestion of OFMSW (organic fraction of municipal solid waste), TWAS (thickened waste activated sludge) and RS (rice straw): Influence of TWAS and RS pretreatment and mixing ratio," Energy, Elsevier, vol. 107(C), pages 131-140.
  • Handle: RePEc:eee:energy:v:107:y:2016:i:c:p:131-140
    DOI: 10.1016/j.energy.2016.03.141
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    14. Quanlin Zhao & Shuibin He & Lianhua Li & Yongming Sun & Haiwei Ren, 2021. "Links between Process Performance and Microbial Community of Pennisetum Hybrid Co-Digested with Municipal Solid Waste," Energies, MDPI, vol. 14(12), pages 1-16, June.
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    16. Liu, Chun Mei & Wachemo, Akiber Chufo & Yuan, Hai Rong & Zou, De Xun & Liu, Yan Ping & Zhang, Liang & Pang, Yun Zhi & Li, Xiu Jin, 2018. "Evaluation of methane yield using acidogenic effluent of NaOH pretreated corn stover in anaerobic digestion," Renewable Energy, Elsevier, vol. 116(PA), pages 224-233.
    17. Li, Wanwu & Khalid, Habiba & Amin, Farrukh Raza & Zhang, Han & Dai, Zhuangqiang & Chen, Chang & Liu, Guangqing, 2020. "Biomethane production characteristics, kinetic analysis, and energy potential of different paper wastes in anaerobic digestion," Renewable Energy, Elsevier, vol. 157(C), pages 1081-1088.
    18. De Clercq, Djavan & Wen, Zongguo & Caicedo, Luis & Cao, Xin & Fan, Fei & Xu, Ruifei, 2017. "Application of DEA and statistical inference to model the determinants of biomethane production efficiency: A case study in south China," Applied Energy, Elsevier, vol. 205(C), pages 1231-1243.
    19. Negri, Camilla & Ricci, Marina & Zilio, Massimo & D'Imporzano, Giuliana & Qiao, Wei & Dong, Renjie & Adani, Fabrizio, 2020. "Anaerobic digestion of food waste for bio-energy production in China and Southeast Asia: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 133(C).
    20. Hagos, Kiros & Zong, Jianpeng & Li, Dongxue & Liu, Chang & Lu, Xiaohua, 2017. "Anaerobic co-digestion process for biogas production: Progress, challenges and perspectives," Renewable and Sustainable Energy Reviews, Elsevier, vol. 76(C), pages 1485-1496.
    21. Guven, Huseyin & Ersahin, Mustafa Evren & Dereli, Recep Kaan & Ozgun, Hale & Isik, Isa & Ozturk, Izzet, 2019. "Energy recovery potential of anaerobic digestion of excess sludge from high-rate activated sludge systems co-treating municipal wastewater and food waste," Energy, Elsevier, vol. 172(C), pages 1027-1036.

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