Pilot-scale two-phase anaerobic digestion of deoiled food waste and waste activated sludge: Effects of mixing ratios and functional analysis

Anaerobic co-digestion of deoiled food waste (dFW) and waste activated sludge (WAS) can address the challenges derived from mono-digestion of FW. In the present study, a pilot-scale methanogenic bioreactor of a two-phase anaerobic digestion system was developed to explore the impact of dFW/WAS volat...

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Published inChemosphere (Oxford) Vol. 329; p. 138653
Main Authors Jiang, Wei, Tao, Jiale, Luo, Jiwu, Xie, Wengang, Zhou, Xiaojuan, Cheng, Boyi, Guo, Gang, Ngo, Huu Hao, Guo, Wenshan, Cai, Hui, Ye, Yuanyao, Chen, Yiqun, Pozdnyakov, Ivan P.
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.07.2023
Subjects
Anaerobiosis
Archaea
Bioreactors
Deoiled food waste
Food
Methane
Microbial community
Mixing ratios
Pilot scale
Refuse Disposal
Sewage - microbiology
Waste activated sludge
Waste activated sludge
Pilot scale
Mixing ratios
Deoiled food waste
Microbial community
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Abstract Anaerobic co-digestion of deoiled food waste (dFW) and waste activated sludge (WAS) can address the challenges derived from mono-digestion of FW. In the present study, a pilot-scale methanogenic bioreactor of a two-phase anaerobic digestion system was developed to explore the impact of dFW/WAS volatile solids ratios on the overall performance, microbial community, and metabolic pathways. Besides, the tech-economic of the system was analyzed. The results showed that the degradation efficiency of soluble chemical oxygen demand (SCOD) was more than 84.90% for all the dFW/WAS ratios (v/v) (1:0, 39:1, 29:1, 19:1 and 9:1). Moreover, the dominant genus of bacteria and archaea with different ratios were Lactobacillus (66.84–98.44%) and Methanosaeta (53.66–80.09%), respectively. Co-digestion of dFW and WAS (29: 1 in v/v ratios) obtained the highest yield of methane (0.41 L CH4/Ladded) with approximately 90% of SCOD being removed. In the pilot-scale experiment, the co-digestion of FW and WAS makes positive contribution to reusing solid waste for improving solid management. [Display omitted] •Two-phase anaerobic co-digestion of deoiled FW and WAS was studied at pilot scale.•The addition of WAS can significantly reduce the lag time of methane production.•Biogas yield is highly affected by the VFA concentration and biometabolic pathway.•A strategy for simplifying WWTPs sludge treatment system is proposed.
AbstractList Anaerobic co-digestion of deoiled food waste (dFW) and waste activated sludge (WAS) can address the challenges derived from mono-digestion of FW. In the present study, a pilot-scale methanogenic bioreactor of a two-phase anaerobic digestion system was developed to explore the impact of dFW/WAS volatile solids ratios on the overall performance, microbial community, and metabolic pathways. Besides, the tech-economic of the system was analyzed. The results showed that the degradation efficiency of soluble chemical oxygen demand (SCOD) was more than 84.90% for all the dFW/WAS ratios (v/v) (1:0, 39:1, 29:1, 19:1 and 9:1). Moreover, the dominant genus of bacteria and archaea with different ratios were Lactobacillus (66.84-98.44%) and Methanosaeta (53.66-80.09%), respectively. Co-digestion of dFW and WAS (29: 1 in v/v ratios) obtained the highest yield of methane (0.41 L CH /L ) with approximately 90% of SCOD being removed. In the pilot-scale experiment, the co-digestion of FW and WAS makes positive contribution to reusing solid waste for improving solid management.
Anaerobic co-digestion of deoiled food waste (dFW) and waste activated sludge (WAS) can address the challenges derived from mono-digestion of FW. In the present study, a pilot-scale methanogenic bioreactor of a two-phase anaerobic digestion system was developed to explore the impact of dFW/WAS volatile solids ratios on the overall performance, microbial community, and metabolic pathways. Besides, the tech-economic of the system was analyzed. The results showed that the degradation efficiency of soluble chemical oxygen demand (SCOD) was more than 84.90% for all the dFW/WAS ratios (v/v) (1:0, 39:1, 29:1, 19:1 and 9:1). Moreover, the dominant genus of bacteria and archaea with different ratios were Lactobacillus (66.84–98.44%) and Methanosaeta (53.66–80.09%), respectively. Co-digestion of dFW and WAS (29: 1 in v/v ratios) obtained the highest yield of methane (0.41 L CH4/Ladded) with approximately 90% of SCOD being removed. In the pilot-scale experiment, the co-digestion of FW and WAS makes positive contribution to reusing solid waste for improving solid management. [Display omitted] •Two-phase anaerobic co-digestion of deoiled FW and WAS was studied at pilot scale.•The addition of WAS can significantly reduce the lag time of methane production.•Biogas yield is highly affected by the VFA concentration and biometabolic pathway.•A strategy for simplifying WWTPs sludge treatment system is proposed.
ArticleNumber 138653
Author Cheng, Boyi
Pozdnyakov, Ivan P.
Jiang, Wei
Zhou, Xiaojuan
Guo, Wenshan
Cai, Hui
Chen, Yiqun
Guo, Gang
Ngo, Huu Hao
Xie, Wengang
Luo, Jiwu
Ye, Yuanyao
Tao, Jiale
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Keywords Waste activated sludge
Pilot scale
Mixing ratios
Deoiled food waste
Microbial community
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Snippet Anaerobic co-digestion of deoiled food waste (dFW) and waste activated sludge (WAS) can address the challenges derived from mono-digestion of FW. In the...
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SubjectTerms Anaerobiosis
Archaea
Bioreactors
Deoiled food waste
Food
Methane
Microbial community
Mixing ratios
Pilot scale
Refuse Disposal
Sewage - microbiology
Waste activated sludge
Title Pilot-scale two-phase anaerobic digestion of deoiled food waste and waste activated sludge: Effects of mixing ratios and functional analysis
URI https://dx.doi.org/10.1016/j.chemosphere.2023.138653
https://www.ncbi.nlm.nih.gov/pubmed/37044139
https://search.proquest.com/docview/2800626367
Volume 329
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