Abstract
Thermophilic dry methane fermentation is advantageous for feedstock with high solid content. Distillation residue with 65.1% moisture content was eluted from ethanol fermentation of kitchen waste and subjected to thermophilic dry methane fermentation, after adjusting the moisture content to 75%. The effect of carbon to nitrogen (C/N) ratio on thermophilic dry methane fermentation was investigated. Results showed that thermophilic dry methane fermentation could not be stably performed for >10weeks at a C/N ratio of 12.6 and a volatile total solid (VTS) loading rate of 1g/kg sludge/d; however, it was stably performed at a C/N ratio of 19.8 and a VTS loading rate of 3g/kg sludge/d with 83.4% energy recovery efficiency. Quantitative PCR analysis revealed that the number of bacteria and archaea decreased by two orders of magnitude at a C/N ratio of 12.6, whereas they were not influenced at a C/N ratio of 19.8. Microbial community analysis revealed that the relative abundance of protein-degrading bacteria increased and that of organic acid-oxidizing bacteria and acetic acid-oxidizing bacteria decreased at a C/N ratio of 12.6. Therefore, there was accumulation of NH4+ and acetic acid, which inhibited thermophilic dry methane fermentation.
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