蒸汽爆破协同共消化对柳枝稷产甲烷的中温批式发酵影响。

Effects of steam explosion and co-digestion in the methane production from Salix by mesophilic batch assays.

机构信息

Department of Mathematical Sciences and Technology, Norwegian University of Life Sciences, P.O. Box 5003, 1432 Ås, Norway.

出版信息

Bioresour Technol. 2012 Jan;104:749-56. doi: 10.1016/j.biortech.2011.11.017. Epub 2011 Nov 15.

DOI:10.1016/j.biortech.2011.11.017

PMID:22130086

Abstract

Salix that was steam exploded at different conditions of temperature and time was anaerobically digested in a series of batch tests. Steam explosion proved to be favorable to increase the methane yields up to 50%, with best results obtained for temperatures starting at 210 °C. Batch studies for mixtures of cow manure and steam exploded Salix were performed, with C/N ratios varying from 31 to 56, related to volatile solids (VS) contents from 20 up to 80% of each of the substrates. Methane yields reached 230 mL CH(4)/g VS for the mixtures containing 30% and 40% VS of Salix over the total mixture's VS content (35 and 39 C/N ratio, respectively). A fraction up to 40% in VS from pre-treated Salix provided good methane yields with a faster digestion process.

摘要

在一系列分批试验中，对不同温度和时间条件下进行蒸汽爆破的柳树进行了厌氧消化。蒸汽爆破被证明有利于将甲烷产量提高多达 50%，在起始温度为 210°C 时获得最佳效果。对牛粪和蒸汽爆破柳树的混合物进行了分批研究，C/N 比从 31 到 56 不等，与挥发性固体（VS）含量有关，从每个底物的 20%到 80%不等。对于含有 30%和 40%VS 的混合物，甲烷产量达到了 230 毫升 CH(4)/克 VS，占总混合物 VS 含量的 35 和 39 C/N 比（分别）。预处理柳树中高达 40%的 VS 分数提供了良好的甲烷产量和更快的消化过程。

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蒸汽爆破协同共消化对柳枝稷产甲烷的中温批式发酵影响。

Effects of steam explosion and co-digestion in the methane production from Salix by mesophilic batch assays.

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