通过联合生物和化学预处理提高水稻秸秆的厌氧消化性能和木质纤维素成分的降解。

Enhancing anaerobic digestion performance and degradation of lignocellulosic components of rice straw by combined biological and chemical pretreatment.

机构信息

Centre for Resource and Environmental Research, Beijing University of Chemical Technology, Beijing 100029, PR China.

Centre for Resource and Environmental Research, Beijing University of Chemical Technology, Beijing 100029, PR China; Department of Water Supply and Environmental Engineering, Arba Minch University, P.O. Box 21, Arba Minch, Ethiopia.

出版信息

Sci Total Environ. 2018 Oct 1;637-638:9-17. doi: 10.1016/j.scitotenv.2018.04.366. Epub 2018 May 4.

DOI:10.1016/j.scitotenv.2018.04.366

PMID:29734083

Abstract

In order to determine eco-friendly pretreatment method, the combination of different pretreatment reagents such as: CaO, ammonia solution (AS), liquid fraction of digestate (LFD), CaO-AS and CaO-LFD were used in this study. The features of physico-chemical structures and anaerobic digestion (AD) performance of rice straw were investigated using different combined biological and chemical pretreatment methods. The results showed that CaO-LFD bio-chemical pretreatment achieved the best effect among different pretreatment conditions. The removal rate of lignocellulosic components from CaO-LFD pretreated rice straw was 20.73% higher than that of the control sample. The ether and ester bonds between lignin and hemicellulose were ruptured during pretreatment. Moreover, the methane yield from CaO-LFD pretreated rice straw was 274.65 mL gVS, which was 57.56% more than the control. Compared with the untreated rice straw, T decreased by 42.86%. CaO-LFD combined pretreatment has advantages as both biological and chemical pretreatment, which complement each other to improve the degradation of the rice straw. Meantime, AD performance was improved and excellent economic viability was achieved. Therefore, this study provides sustainable insight for exploring efficient pretreatment strategy to stabilize and enhance AD performance for further application.

摘要

为了确定环保的预处理方法，本研究采用了不同的预处理试剂组合，如：氧化钙（CaO）、氨水溶液（AS）、消化液的液相部分（LFD）、CaO-AS 和 CaO-LFD。使用不同的组合生物和化学预处理方法，研究了稻秸的物理化学结构特征和厌氧消化（AD）性能。结果表明，在不同的预处理条件下，CaO-LFD 生物化学预处理效果最好。与对照样品相比，CaO-LFD 预处理稻秸中木质纤维素成分的去除率提高了 20.73%。预处理过程中断裂了木质素和半纤维素之间的醚键和酯键。此外，CaO-LFD 预处理稻秸的甲烷产量为 274.65 mL gVS，比对照高出 57.56%。与未经处理的稻秸相比，T 降低了 42.86%。CaO-LFD 联合预处理具有生物和化学预处理的优点，相互补充，以提高稻秸的降解。同时，AD 性能得到改善，具有优异的经济可行性。因此，本研究为探索高效预处理策略提供了可持续的见解，以稳定和增强 AD 性能，进一步应用。

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通过联合生物和化学预处理提高水稻秸秆的厌氧消化性能和木质纤维素成分的降解。

Enhancing anaerobic digestion performance and degradation of lignocellulosic components of rice straw by combined biological and chemical pretreatment.

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