秸秆与糖甜菜叶共发酵可提高秸秆产甲烷量。

Co-ensiling of straw with sugar beet leaves increases the methane yield from straw.

机构信息

Danish Technological Institute, Agro Food Park 15, DK-8200 Aarhus N, Denmark.

University of Southern Denmark, Department of Chemical Engineering, Biotechnology and Environmental Technology, Campusvej 55, DK-5230 Odense M, Denmark.

出版信息

Bioresour Technol. 2017 Dec;245(Pt A):106-115. doi: 10.1016/j.biortech.2017.08.117. Epub 2017 Aug 20.

DOI:10.1016/j.biortech.2017.08.117

PMID:28892679

Abstract

This study examined the effect of co-ensiling of wheat straw and sugar beet leaves on the biochemical methane potential (BMP) by both lab-scale and pilot-scale co-ensiling. BMP was increased by co-ensiling, and the increase ranged from 19 to 34% after 9months of co-ensiling in lab-scale and from 18 to 32% after 6months of co-ensiling in pilot-scale. No effluent run-off was found through pilot-scale co-ensiling and there was a mass loss of only 0.1%. The study demonstrates that co-ensiling of straw and green biomass has potential as biological pretreatment and for avoiding effluent run-off from pure beet leave silage.

摘要

本研究通过实验室规模和中试规模的共发酵，考察了小麦秸秆和糖甜菜叶共发酵对生化甲烷潜力（BMP）的影响。共发酵提高了 BMP，实验室规模共发酵 9 个月后增加了 19%至 34%，中试规模共发酵 6 个月后增加了 18%至 32%。中试规模的共发酵没有发现渗出液流失，只有 0.1%的质量损失。该研究表明，秸秆和绿色生物质的共发酵具有作为生物预处理的潜力，可避免纯甜菜叶青贮的渗出液流失。

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秸秆与糖甜菜叶共发酵可提高秸秆产甲烷量。

Co-ensiling of straw with sugar beet leaves increases the methane yield from straw.

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