生物炭使生物质中温热解的水相进行厌氧消化。

Biochar enables anaerobic digestion of aqueous phase from intermediate pyrolysis of biomass.

机构信息

Centro Interdipartimentale di Ricerca Industriale: Energia Ambiente, Università di Bologna, Via Sant'Alberto 163, 48123 Ravenna, Italy.

出版信息

Bioresour Technol. 2014 Nov;172:335-341. doi: 10.1016/j.biortech.2014.09.021. Epub 2014 Sep 16.

DOI:10.1016/j.biortech.2014.09.021

PMID:25277261

Abstract

Intermediate pyrolysis produces a two-phase liquid whose aqueous phase is characterized by low heating value and high water content (aqueous pyrolysis liquid, APL). Anaerobic digestion can be the straightest way to produce a fuel (methane) from this material. Batch tests showed poor performance in anaerobic digestion of APL, which underlined the inhibition of biological process. Nutrient supplementation was ineffective, whereas biochar addition increased yield of methane (60±15% of theoretical) with respect to pure APL (34±6% of theoretical) and improved the reaction rate. On the basis of batch results, a semi-continuous biomethanation test was set up, by adding an increasingly amount of APL in a 30ml reactor preloaded with biochar (0.8gml(-1)). With a daily input of 5gd(-1)l(-1) of APL (corresponding to overall amount of 0.1kgl(-1) added before the end of the study) the yield of methane was 65±5% of the theoretical.

摘要

中温热解产生两相液体，其水相具有低热值和高含水量（水热解液体，APL）的特点。厌氧消化可以是将该物质直接转化为燃料（甲烷）的最直接途径。批处理测试表明 APL 的厌氧消化性能不佳，这突显了生物过程的抑制作用。营养物补充无效，而生物炭的添加增加了甲烷的产量（相对于纯 APL 的理论值的 60±15%）（理论值的 34±6%），并提高了反应速率。基于批处理结果，在一个装有生物炭（0.8gml(-1)）的 30ml 反应器中，通过逐渐添加更多的 APL，进行了半连续生物甲烷化测试。以每天输入 5gd(-1)l(-1)的 APL（在研究结束前总共添加了 0.1kgl(-1)），甲烷的产率为理论值的 65±5%。

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生物炭使生物质中温热解的水相进行厌氧消化。

Biochar enables anaerobic digestion of aqueous phase from intermediate pyrolysis of biomass.

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