並列タイトル等酸性条件下におけるメタン生成古細菌の死滅促進現象とその数理モデルに関する研究
一般注記The study focused on the effects of low pH on the decay rate of methanogenic microorganisms and their potential VFA inhibition. Results showed that low pH conditions, with a pH below 6.5, significantly enhanced the decay rate of methanogenic microorganisms, leading to irreversible inhibition. Whereas, the acidogenic bacteria were found to be more tolerant to the acidic environment. The biocidal phenomenon was mainly attributed to the proton concentration in the system and was not affected by the presence of phosphate buffer. The impacts of acidic species (C1–C5 VFAs) and the VFA concentration (until 40 mM of un-dissociated VFAs) on the biomass decay were negligibly small comparing to the low pH stress. A modified ADM1 equipped with a lag-phase sub-model could reproduce the deterioration of reactor performance during an acidic failure and resulte in a 37% improvement in the Nash-Sutcliffe efficiency coefficient compared to the calibrated ADM1 model.
コレクション(個別)国立国会図書館デジタルコレクション > デジタル化資料 > 博士論文
受理日(W3CDTF)2023-06-02T22:06:12+09:00
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