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Comparison of high-solids to liquid anaerobic co-digestion of food waste and green waste

机译：高固体含量与液体厌氧共同消化食物垃圾和绿色垃圾的比较

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Co-digestion of food waste and green waste was conducted with six feedstock mixing ratios to evaluate biogas production. Increasing the food waste percentage in the feedstock resulted in an increased methane yield, while shorter retention time was achieved by increasing the green waste percentage. Food waste/green waste ratio of 40:60 was determined as preferred ratio for optimal biogas production. About 90% of methane yield was obtained after 24.5 days of digestion, with total methane yield of 272.1 mL/g VS. Based the preferred ratio, effect of total solids (TS) content on co-digestion of food waste and green waste was evaluated over a TS range of 5–25%. Results showed that methane yields from high-solids anaerobic digestion (15–20% TS) were higher than the output of liquid anaerobic digestion (5–10% TS), while methanogenesis was inhibited by further increasing the TS content to 25%. The inhibition may be caused by organic overloading and excess ammonia.

机译：用六种原料混合比共同消化食物垃圾和绿色垃圾，以评估沼气的产生。原料中食品废物百分比的增加导致甲烷产量的增加，而绿色废物百分比的增加则缩短了保留时间。确定40:60的食物垃圾/绿色垃圾比率是最佳沼气生产的首选比率。消化24.5天后，甲烷产率约为90％，甲烷总产率为272.1 mL / gVS。根据优选比率，在5–25％的TS范围内评估了总固体（TS）含量对食物垃圾和绿色垃圾共消化的影响。结果表明，高固体厌氧消化（15–20％TS）的甲烷产量高于液体厌氧消化（5–10％TS）的甲烷产量，而甲烷含量的进一步提高将TS含量提高至25％则抑制了甲烷生成。抑制作用可能是由于有机物超载和过量的氨引起的。

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Sanati, Mehri; Chen, Xiang; Yan, Wei;
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年度 2014
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正文语种 eng
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1. Comparison of high-solids to liquid anaerobic co-digestion of food waste and green waste [J] . Xiang Chen, Wei Yan, Kuichuan Sheng, Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2014,第Null期

机译：餐厨垃圾和绿色垃圾高固体与液体厌氧消化的比较
2. High-solids anaerobic co-digestion of sewage sludge and food waste in comparison with mono digestions: Stability and performance [J] . Xiaohu Dai, Nina Duan, Bin Dong, Waste Management . 2013,第2期

机译：与单消化相比，污水污泥和食物垃圾的高固体厌氧共消化：稳定性和性能
3. Advanced methanogenic performance and fouling mechanism investigation of a high-solid anaerobic membrane bioreactor (AnMBR) for the co-digestion of food waste and sewage sludge [J] . Cheng Hui, Li Yemei, Guo Guangze, Water Research . 2020,第Deca15期

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4. High-Solid Anaerobic Membrane Bioreactor (AnMBR) to Enhance Food Waste and Sewage Sludge Co-digestion Performance and Membrane Fouling Mechanism Investigation [C] . Hui Cheng 日本水環境学会シンポジウム . 2020

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5. Characterization of Souring in Anaerobic Co-digestion Reactors Loaded with Thickened Sludge, Food Waste, and Fats, Oils and Grease Waste [D] . Kupferer, Rick Anthony, III. 2020

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6. Effects of waste sources on performance of anaerobic co-digestion of complex organic wastes: taking food waste as an example [O] . Xingang Lu, Wengang Jin, Shengrong Xue, -1

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7. Development of high-solids anaerobic co-digestion of waste biomass mainly consisting of dewatered sludge prodeced in an oxidation-ditch process and waste fried tofu [O] . 戸苅, 丈仁 2016

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Comparison of high-solids to liquid anaerobic co-digestion of food waste and green waste

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