Enhanced biofilm-dependent biogas upgrading from waste activated sludge fermentation liquor in microbial electrolysis cells
This study demonstrated that metal-organic frameworks (MOFs)-derived Fe-NC cathode improved both methane yield and methane content in a microbial electrolysis cell-coupled anaerobic digestion (MEC-AD) system treating waste activated sludge (WAS) fermentation liquor. Results revealed that Fe-NC maint...
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sg-ntu-dr.10356-1830502025-03-17T06:42:38Z Enhanced biofilm-dependent biogas upgrading from waste activated sludge fermentation liquor in microbial electrolysis cells Li, Lei Su, Lezhu Gao, Jun Liu, Shiyu Yuan, Shijie Zhou, Nan Zhou, Zhi Wang, Dongdong Zhou, Yan Dai, Xiaohu School of Civil and Environmental Engineering Engineering Waste activated sludge Metal-organic frameworks This study demonstrated that metal-organic frameworks (MOFs)-derived Fe-NC cathode improved both methane yield and methane content in a microbial electrolysis cell-coupled anaerobic digestion (MEC-AD) system treating waste activated sludge (WAS) fermentation liquor. Results revealed that Fe-NC maintained a meso‑macroporous structure with a large specific surface area of 1381 m2/g and superior electrochemical properties. Its calculated specific capacitance and electron transfer resistance were 5.7 and 0.4 times of the carbon felt (CF) group. The bacterial and archaeal gene loads of Fe-NC biofilm after multiple acclimation cycles were 5.69E+10 and 1.86E+9 copies/cm2 and Proteiniphilum and Methanobacterium were the most enriched syntrophs from stage Ⅰ to stage Ⅱ acclimation. Corresponding maximum methane yield and content achieved were 0.31 m3 CH4/kg COD and 92.8 %, and its CO2-dependent methane production was improved by 107.6 %. Mechanistic investigations showed that Fe-NC biofilm improved enzyme-associated CO2 reduction pathway companying by promoting the intra- and extracellular electron transfer as well as ATP synthesis, therefore favoring methanogenic energetic metabolism. More importantly, an enhanced proton-coupled electron transfer (PCET) process was proposed within Fe-NC biofilm, providing a synergistic advantage over unbalanced conventional sole electron/proton transfer. This work provides an effective strategy to strengthen the waste-to-energy and biogas upgrading technology, potentially bringing economic benefits to wastewater treatment. This work was supported by the National Natural Science Foundation of China (NSFC) (52131002). L.L. acknowledges the support of China Scholarship Council (CSC) through project 202206260109. 2025-03-17T06:41:47Z 2025-03-17T06:41:47Z 2025 Journal Article Li, L., Su, L., Gao, J., Liu, S., Yuan, S., Zhou, N., Zhou, Z., Wang, D., Zhou, Y. & Dai, X. (2025). Enhanced biofilm-dependent biogas upgrading from waste activated sludge fermentation liquor in microbial electrolysis cells. Water Research, 268(Pt A), 122675-. https://dx.doi.org/10.1016/j.watres.2024.122675 0043-1354 https://hdl.handle.net/10356/183050 10.1016/j.watres.2024.122675 39476781 2-s2.0-85207358581 Pt A 268 122675 en Water Research © 2024 Elsevier Ltd. All rights are reserved, including those for text and data mining, AI training, and similar technologies. |
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Engineering Waste activated sludge Metal-organic frameworks |
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Engineering Waste activated sludge Metal-organic frameworks Li, Lei Su, Lezhu Gao, Jun Liu, Shiyu Yuan, Shijie Zhou, Nan Zhou, Zhi Wang, Dongdong Zhou, Yan Dai, Xiaohu Enhanced biofilm-dependent biogas upgrading from waste activated sludge fermentation liquor in microbial electrolysis cells |
| description |
This study demonstrated that metal-organic frameworks (MOFs)-derived Fe-NC cathode improved both methane yield and methane content in a microbial electrolysis cell-coupled anaerobic digestion (MEC-AD) system treating waste activated sludge (WAS) fermentation liquor. Results revealed that Fe-NC maintained a meso‑macroporous structure with a large specific surface area of 1381 m2/g and superior electrochemical properties. Its calculated specific capacitance and electron transfer resistance were 5.7 and 0.4 times of the carbon felt (CF) group. The bacterial and archaeal gene loads of Fe-NC biofilm after multiple acclimation cycles were 5.69E+10 and 1.86E+9 copies/cm2 and Proteiniphilum and Methanobacterium were the most enriched syntrophs from stage Ⅰ to stage Ⅱ acclimation. Corresponding maximum methane yield and content achieved were 0.31 m3 CH4/kg COD and 92.8 %, and its CO2-dependent methane production was improved by 107.6 %. Mechanistic investigations showed that Fe-NC biofilm improved enzyme-associated CO2 reduction pathway companying by promoting the intra- and extracellular electron transfer as well as ATP synthesis, therefore favoring methanogenic energetic metabolism. More importantly, an enhanced proton-coupled electron transfer (PCET) process was proposed within Fe-NC biofilm, providing a synergistic advantage over unbalanced conventional sole electron/proton transfer. This work provides an effective strategy to strengthen the waste-to-energy and biogas upgrading technology, potentially bringing economic benefits to wastewater treatment. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Li, Lei Su, Lezhu Gao, Jun Liu, Shiyu Yuan, Shijie Zhou, Nan Zhou, Zhi Wang, Dongdong Zhou, Yan Dai, Xiaohu |
| format |
Article |
| author |
Li, Lei Su, Lezhu Gao, Jun Liu, Shiyu Yuan, Shijie Zhou, Nan Zhou, Zhi Wang, Dongdong Zhou, Yan Dai, Xiaohu |
| author_sort |
Li, Lei |
| title |
Enhanced biofilm-dependent biogas upgrading from waste activated sludge fermentation liquor in microbial electrolysis cells |
| title_short |
Enhanced biofilm-dependent biogas upgrading from waste activated sludge fermentation liquor in microbial electrolysis cells |
| title_full |
Enhanced biofilm-dependent biogas upgrading from waste activated sludge fermentation liquor in microbial electrolysis cells |
| title_fullStr |
Enhanced biofilm-dependent biogas upgrading from waste activated sludge fermentation liquor in microbial electrolysis cells |
| title_full_unstemmed |
Enhanced biofilm-dependent biogas upgrading from waste activated sludge fermentation liquor in microbial electrolysis cells |
| title_sort |
enhanced biofilm-dependent biogas upgrading from waste activated sludge fermentation liquor in microbial electrolysis cells |
| publishDate |
2025 |
| url |
https://hdl.handle.net/10356/183050 |
| _version_ |
1827070730888544256 |