Improving methane production and anaerobic digestion stability of food waste by extracting lipids and mixing it with sewage sludge

Algapani Dalal E.; Wang Jing; Qiao Wei; Su Min; Goglio Andrea; Wandera Simon M.; Jiang Mengmeng; Pan Xiang; Adani Fabrizio; Dong Renjie

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Improving methane production and anaerobic digestion stability of food waste by extracting lipids and mixing it with sewage sludge

机译：通过提取脂质并将其与污水污泥混合，改善甲烷的生产和厌氧消化稳定性

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Anaerobic digestion (AD) of FW shows instability due to both the presence of high lipids and accumulation of volatile fatty acids. In this study, AD of food waste (FW) was optimized by removing lipids (LRFW) and by co-digestion with sewage sludge (1:1 w/w on dry matter). The results obtained showed that lipids extraction increased FW methane yield from 400 to 418 mL-g VSadded-1 under mesophilic conditions (35 degrees C) and from 426 to 531 mL-g VSadded-1 in thermophilic conditions (55 degrees C). Two degradation phases (k(1) and k(2)) described FW and LRFW degradation. In the thermophilic, LRFW-k(1) (0.1591 d(-1)) was slightly higher than that of FW (k(1) of 0.1543 d(-1)) and in the second stage FW-k(2) of 0.0552 d(-1) was higher than that of LRFW (k(2) of 0.0117 d(-1)). The majority of LRFW was degraded in the first stage. FW and sewage sludge co-digestion reduced VFA accumulation, preventing media acidification and improving process stability.

机译：由于高脂质和挥发性脂肪酸的积累，FW的Anaerobic消化（AD）显示不稳定性。在这项研究中，通过除去脂质（LRFW）并通过用污水污泥（1：1 w / w在干物质上的1：1 w / w）来优化食物废物（fw）的广告。得到的结果表明，在嗜水煮条件下（35℃）和426至531mL-g Vsadded-1在嗜热条件下，脂质萃取将FW甲烷产率增加到400-418mL-G Vsadded-1增加（55℃）。两个降解相（K（1）和K（2））描述了FW和LRFW降解。在嗜热性中，LRFW-K（1）（0.1591d（-1））略高于FW（K（1）的0.1543d（-1））和第二阶段FW-K（2） 0.0552d（-1）高于LRFW（K（2）的0.0117d（-1））的0.0552d（-1））。大多数LRFW在第一阶段降级。 FW和污水污泥共消化降低了VFA积累，防止介质酸化和改善过程稳定性。

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来源
《Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies》 |2017年第1期|共10页
作者
Algapani Dalal E.; Wang Jing; Qiao Wei; Su Min; Goglio Andrea; Wandera Simon M.; Jiang Mengmeng; Pan Xiang; Adani Fabrizio; Dong Renjie;
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作者单位

China Agr Univ Coll Engn Biomass Engn Ctr Beijing 100083 Peoples R China;

China Agr Univ Coll Engn Biomass Engn Ctr Beijing 100083 Peoples R China;

China Agr Univ Coll Engn Biomass Engn Ctr Beijing 100083 Peoples R China;

China Agr Univ Coll Engn Biomass Engn Ctr Beijing 100083 Peoples R China;

Univ Milan DiSAA Grp Ricicla Via Celoria 2 I-20133 Milan Italy;

China Agr Univ Coll Engn Biomass Engn Ctr Beijing 100083 Peoples R China;

China Agr Univ Coll Engn Biomass Engn Ctr Beijing 100083 Peoples R China;

China Agr Univ Coll Engn Biomass Engn Ctr Beijing 100083 Peoples R China;

Univ Milan DiSAA Grp Ricicla Via Celoria 2 I-20133 Milan Italy;

China Agr Univ Coll Engn Biomass Engn Ctr Beijing 100083 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
Anaerobic digestion; Co-digestion; Food waste; Kinetic modeling; Lipid extraction;

机译：厌氧消化;共消化;食物垃圾;动力学建模;脂质提取;

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专利

1. Improving methane production and anaerobic digestion stability of food waste by extracting lipids and mixing it with sewage sludge [J] . Algapani Dalal E., Wang Jing, Qiao Wei, Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2017,第1期

机译：通过提取脂质并将其与污水污泥混合，改善甲烷的生产和厌氧消化稳定性
2. Improving biogas production from anaerobic co-digestion of sewage sludge with a thermal dried mixture of food waste, cheese whey and olive mill wastewater [J] . A.E. Maragkaki, I. Vasileiadis, M. Fountoulakis, Waste Management . 2018,第JANa期

机译：通过食物残渣，干酪乳清和橄榄磨机废水的热干燥混合物厌氧共消化污水污泥的消化来提高沼气产量
3. Hydrogen and methane production in a two-stage anaerobic digestion system by co-digestion of food waste, sewage sludge and glycerol [J] . Silva Fabricia M. S., Mahler Claudio F., Oliveira Luciano B., Waste Management . 2018,第JUNa期

机译：通过两级厌氧消化系统中的食物垃圾，污水污泥和甘油的共消化来生产氢气和甲烷
4. Methane Production in A Thermophilic Anaerobic Membrane Bioreactor by Anaerobic Co-digestion of Food Waste and Sewage Sludge [C] . Yemei LI, Hui CHENG, Yu-You LI Water and environment technology conference . 2019

机译：厨余和污水污泥厌氧共消化在嗜热厌氧膜生物反应器中生产甲烷
5. Impact of Substrate to Inoculum Ratio on Methane Production in High Solids Anaerobic Digestion (HS-AD) of Food Waste, Yard Waste, and Biosolids [D] . Dixon, Phillip James. 2018

机译：食物垃圾，庭院垃圾和生物固体中高固体厌氧消化（HS-AD）中底物与接种物比例对甲烷生产的影响
6. Inoculum Source Determines Acetate and Lactate Production during Anaerobic Digestion of Sewage Sludge and Food Waste [O] . Jan Moestedt, Maria Westerholm, Simon Isaksson, 2020

机译：接种源决定污水污泥和食物垃圾厌氧消化过程中乙酸和乳酸的产生
7. Anaerobic Digestion of Fruit Waste Mixed With Sewage Sludge Digestate Biochar: Influence on Biomethane Production [O] . Teklit Gebregiorgis Ambaye, Eldon R. Rene, Capucine Dupont, 2020

机译：与污水污泥消化生物炭混合的果实废物的厌氧消化：对生物甲烷生产的影响
8. Enhancement of Methane Production in the Anaerobic Digestion of Municipal Sewage Sludge [R] . Purdy, D. J., Williams, T. J. 1981

机译：提高城市污水污泥厌氧消化中的甲烷产量

Improving methane production and anaerobic digestion stability of food waste by extracting lipids and mixing it with sewage sludge

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