Acclimatization of anaerobic sludge with cow manure and realization of high-rate food waste digestion for biogas production

Xing Bao-Shan; Han Yule; Wang Xiaochang C.; Cao Sifan; Wen Junwei; Zhang Kaidi

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Acclimatization of anaerobic sludge with cow manure and realization of high-rate food waste digestion for biogas production

机译：牛粪厌氧污泥的适应与沼气生产高速食品废物消化的实现

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Long-term acclimatization of anaerobic sludge was conducted by operating a mesophilic continuously stirred anaerobic reactor (CSTR) with continuous feeding of food wastes (FW) and cow manure (CM). During the longterm acclimatization, continued increase of enzyme activity was revealed, while the microbial structure tended stable as shown by the Shannon index and microbial community. By biomethane potential analysis, the acclimated sludge had a methane yield about 13 times higher than the initial anaerobic sludge. The acclimated sludge was subsequently used for FW digestion with stepwise organic loading rate increase without CM addition. The functional phyla of Bacteroidetes and Proteobacteria, which originated from CM but not very abundant, were significantly enriched not only during sludge acclimatization with CM addition but also in the process of FW digestion without CM addition. A microbe coexistence network was proposed to support an explanation of the metabolic pathways of FW digestion using the acclimated sludge.

机译：通过使用连续喂养食品废物（FW）和牛粪（Cm），通过操作嗜苯胺连续搅拌的厌氧反应器（Cstr）进行厌氧污泥的长期适应。在Longterm适应期间，揭示了酶活性的持续增加，而微生物结构呈稳定，如香农指数和微生物群落所示。通过生物甲烷电位分析，所平移的污泥的甲烷产率约为初始厌氧污泥的约13倍。随后使用所平移的污泥，用于逐步有机加载速率增加而没有CM加入。生育物和噬菌体的功能性phyla，其源自Cm但不是非常丰富，不仅在用CM加入的污泥适应过程中显着富集，而且在FW消化的过程中没有CM加入。提出了一种微生物共存网络，以支持使用适应污泥的FW消化的代谢途径的解释。

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《Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies》 |2020年第1期|共12页
作者
Xing Bao-Shan; Han Yule; Wang Xiaochang C.; Cao Sifan; Wen Junwei; Zhang Kaidi;
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作者单位

MOE Engn Technol Res Ctr Wastewater Treatment &

Reuse Int Sci &

Technol Cooperat Ctr Urban Alternat Wat Key Lab Northwest Water Resource Environm &

Ecol Xian Shaanxi Peoples R China;

MOE Engn Technol Res Ctr Wastewater Treatment &

Reuse Int Sci &

Technol Cooperat Ctr Urban Alternat Wat Key Lab Northwest Water Resource Environm &

Ecol Xian Shaanxi Peoples R China;

MOE Engn Technol Res Ctr Wastewater Treatment &

Reuse Int Sci &

Technol Cooperat Ctr Urban Alternat Wat Key Lab Northwest Water Resource Environm &

Ecol Xian Shaanxi Peoples R China;

MOE Engn Technol Res Ctr Wastewater Treatment &

Reuse Int Sci &

Technol Cooperat Ctr Urban Alternat Wat Key Lab Northwest Water Resource Environm &

Ecol Xian Shaanxi Peoples R China;

MOE Engn Technol Res Ctr Wastewater Treatment &

Reuse Int Sci &

Technol Cooperat Ctr Urban Alternat Wat Key Lab Northwest Water Resource Environm &

Ecol Xian Shaanxi Peoples R China;

MOE Engn Technol Res Ctr Wastewater Treatment &

Reuse Int Sci &

Technol Cooperat Ctr Urban Alternat Wat Key Lab Northwest Water Resource Environm &

Ecol Xian Shaanxi Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类生物科学;
关键词
Acclimatization; Anaerobic digestion; Biogas; Cow manure; CSTR; Food waste;

机译：适应;厌氧消化;沼气;牛粪;Cstr;食物垃圾;

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专利

1. Acclimatization of anaerobic sludge with cow manure and realization of high-rate food waste digestion for biogas production [J] . Xing Bao-Shan, Han Yule, Wang Xiaochang C., Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2020,第1期

机译：牛粪厌氧污泥的适应与沼气生产高速食品废物消化的实现
2. Anaerobic digestion of activated sludge, anaerobic granular sludge and cow dung with food waste for enhanced methane production [J] . Gaur Rubia Zahid, Suthar Surindra Journal of Cleaner Production . 2017,第octa15期

机译：用食物残渣厌氧消化活性污泥，厌氧颗粒污泥和牛粪以提高甲烷产量
3. Biogas Production from Anaerobic Co-digestion of Food Waste with Dairy Manure in a Two-Phase Digestion System [J] . Rongping Li, Shulin Chen, Xiujiu Li Applied Biochemistry and Biotechnology . 2010,第2期

机译：在两阶段消化系统中，餐厨垃圾与乳牛粪的厌氧共消化产生沼气
4. Biogas production from chicken food waste and cow manure via multi-stages anaerobic digestion [C] . Masrihan Abu Hasan, Aqsha, Zulfan Adi Putra, International Conference on Applied Science and Technology . 2018

机译：通过多阶段的鸡食品废物和牛粪产生沼气生物植物厌氧消化
5. Increased biogas production by anaerobic co-digestion of wastewater sludge with fruit and vegetable waste, and by sludge pre-treatment. [D] . Park, Nathan D. 2012

机译：废水污泥与水果和蔬菜废物的厌氧共消化以及污泥的预处理提高了沼气的产量。
6. Effect of yeast addition on the biogas production performance of a food waste anaerobic digestion system [O] . Ming Gao, Shuang Zhang, Xinxin Ma, 2020

机译：酵母添加对食品废弃物消化系统沼气生产性能的影响
7. Improved of Biogas Production by Anaerobic Co-digestion of Ziziphus Leaves and Cow Manure Wastes [O] . Jassim Mohammed, Ali Ridha, Majid Majeed 2020

机译：通过厌氧共消化Ziziphus叶子和牛粪废物的沼气生成的改善

Acclimatization of anaerobic sludge with cow manure and realization of high-rate food waste digestion for biogas production

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