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[1] Zhang Y, Li LH, Li YQ*, et al. Plant-scale biogas production prediction based on multiple hybrid machine learning technique. Bioresource Technology, 2022, 363, 127899. (SCI, Ò»ÇøTop, 2022IF11.889)
[2] Jiang H, Wang SQ, Li YQ*, Pan JT*. Anaerobic digestion of organic fraction of municipal solid waste using a novel two-stage solid-liquid system. Journal of Cleaner Production. 2022, 370, 133521. £¨2022IF 11.072£©
[3] Sun ZY, Feng L, Li YQ*, Pan JT*. The role of electrochemical properties of biochar to promote methane production in anaerobic digestion. Journal of Cleaner Production. Available online 20 May 2022, 132296. https://doi.org/10.1016/j.jclepro.2022.132296 £¨2022IF 11.072£©
[4] Li Y#, Jing Zhangmu#, Pan junting* et al. Multi-omics joint analysis of the effect of temperature on microbial communities, metabolism, and genetics in full-scale biogas reactors with food waste. Renewable and Sustainable Energy Reviews. 2022, 160, 112261. (SCI, Ò»ÇøTop£¬2022IF 16.799)
[5] Li Y, Yang Xingru, Zhu mingyu, et al. Synergistic effect of combined hydrothermal carbonization of Fenton's reagent and biomass enhances the adsorption and combustion characteristics of sludge towards eco-friendly and efficient sludge treatment. Science of the total Environment. 2022, Volume 825, 15 June 2022, 153854. (SCI, Ò»ÇøTop, 2022IF 10.753)
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[7] Li Y#, Yinjun Liu#, Ximeng Wang, Lu Feng* et al. Biomethanation of syngas at high CO concentration in a continuous mode. Bioresource Technology, Volume 346, February 2022, 126407 (SCI, Ò»ÇøTop, 2022IF11.889)
[8] Jing Zhang, Zilan Du, Liqin Fu, Yongming Han*, Li Y*, WeiyingPing*. Novel anaerobic digestion and carbon dioxide emissions efficiency analysis of food waste treatment based on SBM-DEA model. Journal of Cleaner Production. Volume 328, 15 December 2021, 129591. (SCI, Ò»ÇøTop, 2021IF9.297)
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