厌氧消化
沼渣
沼气
废物管理
食物垃圾
生物燃料
废物处理
废弃物
无氧运动
环境科学
泥浆
能量回收
化学
工程类
环境工程
甲烷
生物
数学
统计
有机化学
能量(信号处理)
生理学
作者
Qingchen Meng,Hongbo Liu,Haodong Zhang,Suyun Xu,Éric Lichtfouse,Yunbo Yun
标识
DOI:10.1007/s10311-022-01408-x
摘要
About 1.6 billion tons of food are wasted worldwide annually, calling for advanced methods to recycle food waste into energy and materials. Anaerobic digestion of kitchen waste allows the efficient recovery of energy, and induces low-carbon emissions. Nonetheless, digestion stability and biogas production are variables, due to dietary habits and seasonal diet variations that modify the components of kitchen waste. Another challenge is the recycling of the digestate, which could be partly solved by more efficient reactors of anaerobic digestion. Here, we review the bottlenecks of anaerobic digestion treatment of kitchen waste, with focus on components inhibition, and energy recovery from biogas slurry and residue. We provide rules for the optimal treatment of the organic fraction of kitchen waste, and guidelines to upgrade the anaerobic digestion processes. We propose a strategy using an anaerobic dynamic membrane bioreactor to improve anaerobic digestion of kitchen waste, and a model for the complete transformation and recycling of kitchen waste, based on component properties.
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