Anaerobic Co-digestion of Kitchen Waste and Cattle Manure for Methane Production

R. LI; S. CHEN; X. LI

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Anaerobic Co-digestion of Kitchen Waste and Cattle Manure for Methane Production

机译：厨余和牛粪厌氧消化甲烷生产

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Anaerobic co-digestion of kitchen waste and cattle manure was carried out in laboratory scale in batch and semi-continuous modes under mesophilic temperature. Five feedstocks of Rl, R2, R3, R4, and R5 were tested, which were made by mixing kitchen waste with cow manure at different mixing ratios of 0:1, 1:1, 2:1, 3:1, and 1:0, respectively. The results showed that 61.0-85.2% of specific methane potential of R2-R4 were contributed by the addition of kitchen waste, which exhibited the highest specific methane potential and biodegradability in batch test. In semi-continuous operation, the methane yield in the digestion of kitchen waste as sole feedstock was 8.8-37.8% less than that of R2-R4. The highest methane yield of 233 ml/g volatile solid was obtained at the mixing ratio of 3:1; therefore, the mixing ratio of 3:1 is recommended as the optimal one for the co-digestion of kitchen waste and cow manure.

机译：在实验室规模下，在中温温度下以分批和半连续模式对厨房废物和牛粪进行厌氧消化。测试了R1，R2，R3，R4和R5的五种原料，它们是通过将厨房垃圾与牛粪以0：1、1：1、2：1、3：1和1：的不同混合比例混合制成的分别为0。结果表明，R2-R4的比甲烷潜力中有61.0-85.2％是由厨房垃圾的添加造成的，在批处理试验中，其具有最高的比甲烷潜力和生物降解性。在半连续操作中，作为唯一原料的厨余消化中的甲烷产率比R2-R4低8.8-37.8％。在3：1的混合比下，最高甲烷产量为233 ml / g挥发性固体。因此，建议将3：1的混合比例作为厨房垃圾和牛粪共同消化的最佳比例。

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来源
《Energy Sources 》 |2009年第20期| 1848-1856| 共9页
作者
R. LI; S. CHEN; X. LI;
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作者单位

Department of Environmental Science and Engineering, Beijing University of Chemical Technology, Beijing, China;

Department of Biological Systems Engineering, Washington State University, Pullman, Washington, USA;

Beijing University of Chemical Technology, Faculty, Department of Environmental Science and Engineering, Beijing 100029, China;

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原文格式 PDF
正文语种 eng
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关键词
anaerobic co-digestion; cattle manure; kitchen waste; methane;

机译：厌氧消化牛粪厨房垃圾;甲烷;

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专利

1. PERFORMANCE, MICROBIAL COMMUNITY ANALYSIS AND FERTILIZER VALUE OF ANAEROBIC CO-DIGESTION OF CATTLE MANURE WITH WASTE KITCHEN OIL [J] . Nogueira R. G. S., Lim T. T., Wang H., Applied Engineering in Agriculture . 2019 ,第2期

机译：废厨房油牛粪共消化的性能，微生物群落分析及肥料价值
2. Process Evolution of Dry Anaerobic Co-digestion of Cattle Manure with Kitchen Waste [J] . H. L. Li, X. L. Guo, F. F. Cao Chemical and Biochemical Engineering Quarterly . 2014 ,第1期

机译：牛粪与厨房垃圾干厌氧共消化的过程演变
3. Process Evolution of Dry Anaerobic Co-digestion of Cattle Manure with Kitchen Waste [J] . H. L. Li, X. L. Guo, F. F. Cao, Chemical and Biochemical Engineering Quarterly . 2014 ,第2014期

机译：牛粪与厨房垃圾干厌氧共消化的过程演变
4. Synergetic Effect of the Anaerobic Co-digestion of Kitchen Waste and Cattle Manure on Methane Production [C] . The 12th Asian Pacific Confederation of Chemical Engineering Congress(第十二届亚太化工联盟大会暨化工展览会)论文集 . 2008

机译：厨余垃圾和牛粪厌氧消化对甲烷产生的协同作用
5. Anaerobic co-digestion of dairy manure and potato waste [D] . Yadanaparthi, Sai Krishna Reddy 2014

机译：牛粪和马铃薯废弃物的厌氧消化
6. Treatment of Cattle Manure by Anaerobic Co-Digestion with Food Waste and Pig Manure: Methane Yield and Synergistic Effect [O] . Gahyun Baek, Danbee Kim, Jinsu Kim, 2020

机译：餐厨垃圾与猪粪厌氧共消化处理牛粪的甲烷收率及协同效应
7. Anaerobic Co-digestion of Olive-mill Solid Waste with Cattle Manure and Cattle Slurry: Analysis of Bio-methane Potential [O] . Carlini Maurizio, Castellucci Sonia, Moneti Marta 2015

机译：牛粪和牛粪浆厌氧消化橄榄工厂固体废物：生物甲烷潜能分析

Anaerobic Co-digestion of Kitchen Waste and Cattle Manure for Methane Production

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