利用新型微生物从发酵反应的有机废物中生产甲烷、甲醇和电力。

Producing methane, methanol and electricity from organic waste of fermentation reaction using novel microbes.

机构信息

Department of Chemical and Biological Engineering, South Dakota School of Mines and Technology, Rapid City, SD 57701, USA; BuG ReMeDEE Consortium, South Dakota School of Mines and Technology, Rapid City, SD 57701, USA; Composite and Nanocomposite Advanced Manufacturing Centre - Biomaterials (CNAM/Bio), Rapid City, SD 57701, USA.

Department of Civil and Environmental Engineering, South Dakota School of Mines and Technology, Rapid City, SD 57701, USA.

出版信息

Bioresour Technol. 2018 Jun;258:270-278. doi: 10.1016/j.biortech.2018.02.128. Epub 2018 Mar 20.

DOI:10.1016/j.biortech.2018.02.128

PMID:29544100

Abstract

Residual solid and liquid streams from the one-pot CRUDE (Conversion of Raw and Untreated Disposal into Ethanol) process were treated with two separate biochemical routes for renewable energy transformation. The solid residual stream was subjected to thermophilic anaerobic digestion (TAD), which produced 95 ± 7 L methane kg volatile solid with an overall energy efficiency of 12.9 ± 1.7%. A methanotroph, Methyloferula sp., was deployed for oxidation of mixed TAD biogas into methanol. The residual liquid stream from CRUDE process was used in a Microbial Fuel Cell (MFC) to produce electricity. Material balance calculations confirmed the integration of biochemical routes (i.e. CRUDE, TAD, and MFC) for developing a sustainable approach of energy regeneration. The current work demonstrates the utilization of different residual streams originated after food waste processing to release minimal organic load to the environment.

摘要

一锅法（将原始未处理废物转化为乙醇）的残余固液物流采用两种单独的生物化学途径进行可再生能源转化。固体残余物流经高温厌氧消化（TAD）处理，产生 95±7L 甲烷 kg 挥发性固体，总能量效率为 12.9±1.7%。采用 Methyloferula sp. 对混合 TAD 沼气进行氧化，生成甲醇。CRUDE 工艺的残余液体流用于微生物燃料电池（MFC）发电。物料平衡计算证实了生物化学途径（即 CRUDE、TAD 和 MFC）的整合，以开发可持续的能源再生方法。目前的工作表明，利用食品废物处理后产生的不同残余物流来向环境释放最小的有机负荷。

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利用新型微生物从发酵反应的有机废物中生产甲烷、甲醇和电力。

Producing methane, methanol and electricity from organic waste of fermentation reaction using novel microbes.

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