生物炭对柑橘皮废物厌氧消化的影响。

Impact of biochar on the anaerobic digestion of citrus peel waste.

机构信息

Lancaster Environment Centre, Lancaster University, Lancaster LA1 4YQ, United Kingdom.

Stopford Energy and Environment, Merseyton Road, Ellemere Port, Chester CH65 3AD, United Kingdom.

出版信息

Bioresour Technol. 2016 Sep;216:142-9. doi: 10.1016/j.biortech.2016.04.106. Epub 2016 May 10.

DOI:10.1016/j.biortech.2016.04.106

PMID:27236401

Abstract

In this study, the impact of different types of biochar and biochar ratios on the anaerobic digestion of citrus peel waste was investigated. Citrus peel has an inhibitory effect on anaerobic digestion. The presence of biochar had two effects: a reduction in the length of the lag phase and greater production of methane relative to citrus peel waste only incubations. The microbial lag phases decreased with increase in citrus peel to biochar ratios, with 2:1 having the longest lag phase of 9.4days and 1:3, the shortest, with the value of 7.5days. The cumulative methane production in incubations containing biochar and citrus peel ranged from 163.9 to 186.8ml CH4 gVS(-1), while citrus peel only produced 165.9ml CH4 gVS(-1). Examination of the biochar material revealed colonies of putative methanogens. The synergy of d-limonene adsorption and microbial immobilization by biochar appears to improve the performance of anaerobic digestion.

摘要

在这项研究中，研究了不同类型的生物炭及其比例对柑橘皮废物厌氧消化的影响。柑橘皮对厌氧消化有抑制作用。生物炭的存在有两个作用：一是缩短了迟滞期的长度，二是相对于仅用柑橘皮废物进行培养，产生了更多的甲烷。随着柑橘皮与生物炭比例的增加，微生物的迟滞期逐渐缩短，2:1 组的迟滞期最长，为 9.4 天，而 1:3 组最短，为 7.5 天。含生物炭和柑橘皮的培养物中的累积甲烷产量在 163.9 到 186.8ml CH4 gVS(-1) 之间，而仅用柑橘皮的培养物产生 165.9ml CH4 gVS(-1)。对生物炭材料的检查显示出了假定产甲烷菌的菌落。生物炭的 d-苎烯吸附和微生物固定的协同作用似乎改善了厌氧消化的性能。

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生物炭对柑橘皮废物厌氧消化的影响。

Impact of biochar on the anaerobic digestion of citrus peel waste.

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