Shunan Zhao, Wenhan Chen, Wendan Luo, Hongli Fang, Huanyu Lv, Rutao Liu, Qigui Niu
Bioresource technology 2021 FebThis study aimed to investigate the synergistic effect and microbial community changes between chicken manure (CM) and cardboard (CB) during anaerobic co-digestion. Meanwhile, the energy balance of biogas engineering was extrapolated based on the batch tests. In batch tests, co-digestion system achieved the highest improvement (14.2%) and produced 319.62 mL CH4/gVS with a 65:35 ratio of CB: CM. More extracellular polymeric substance secretion promoted the electron transfer for acidogenesis and more hydrolase was provided with 31.6% improvement. The microbial analysis illustrated that higher acetoclastic Methanosaeta abundance was achieved, leading to 211% enhancement of acetoclastic pathway. Moreover, associated network illustrated that the higher methane production was mainly achieved through matching of hydrolytic bacteria and acidogenesis bacteria. As for energy balance, the synergistic effect increased the energy output by 38% and energy recovery to 46.4%. Copyright © 2020 Elsevier Ltd. All rights reserved.
Shunan Zhao, Wenhan Chen, Wendan Luo, Hongli Fang, Huanyu Lv, Rutao Liu, Qigui Niu. Anaerobic co-digestion of chicken manure and cardboard waste: Focusing on methane production, microbial community analysis and energy evaluation. Bioresource technology. 2021 Feb;321:124429
PMID: 33285504
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