高温生物甲烷化系统性能研究。

Study of the performance of a thermophilic biological methanation system.

机构信息

The MaREI Centre, Environmental Research Institute, University College Cork, Ireland.

The MaREI Centre, Environmental Research Institute, University College Cork, Ireland; School of Microbiology, University College Cork, Ireland.

出版信息

Bioresour Technol. 2017 Feb;225:308-315. doi: 10.1016/j.biortech.2016.11.066. Epub 2016 Nov 18.

DOI:10.1016/j.biortech.2016.11.066

PMID:27898322

Abstract

This study investigated the operation of ex-situ biological methanation at two thermophilic temperatures (55°C and 65°C). Methane composition of 85-88% was obtained and volumetric productivities of 0.45 and 0.4LCH/Lreactor were observed at 55°C and 65°C after 24h respectively. It is postulated that at 55°C the process operated as a mixed culture as the residual organic substrates in the starting inoculum were still available. These were consumed prior to the assessment at 65°C; thus the methanogens were now dependent on gaseous substrates CO and H. The experiment was repeated at 65°C with fresh inoculum (a mixed culture); methane composition and volumetric productivity of 92% and 0.46LCH/Lreactor were achieved in 24h. Methanothermobacter species represent likely and resilient candidates for thermophilic biogas upgrading.

摘要

本研究考察了两种嗜热温度（55°C 和 65°C）下的异位生物甲烷化操作。在 55°C 和 65°C 下分别反应 24 小时后，获得了 85-88%的甲烷组成，观察到的体积产率分别为 0.45 和 0.4LCH/Lreactor。据推测，在 55°C 下，该过程作为混合培养物运行，因为起始接种物中的残留有机底物仍然可用。在评估 65°C 之前，这些有机底物被消耗殆尽；因此，产甲烷菌现在依赖于气态底物 CO 和 H。实验在 65°C 下用新鲜接种物（混合培养物）重复进行，在 24 小时内实现了 92%的甲烷组成和 0.46LCH/Lreactor 的体积产率。产甲烷杆菌属代表了适合高温沼气升级的可能和有弹性的候选生物。

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高温生物甲烷化系统性能研究。

Study of the performance of a thermophilic biological methanation system.

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