温度和底物浓度对乙酸盐、丙酸盐和氢气降解速率的影响及其与微生物群落结构的关系。

Impact of temperature and substrate concentration on degradation rates of acetate, propionate and hydrogen and their links to microbial community structure.

机构信息

College of Engineering, China Agricultural University, Beijing 100083, China; State R&D Center for Efficient Production and Comprehensive Utilization of Biobased Gaseous Fuels, Energy Authority, National Development, and Reform Committee (BGFuels), Beijing 100083, China.

Department of Molecular Sciences, Swedish University of Agricultural Sciences, Uppsala BioCenter, Box 7025, SE-750 07 Uppsala, Sweden.

出版信息

Bioresour Technol. 2018 May;256:44-52. doi: 10.1016/j.biortech.2018.01.150. Epub 2018 Feb 2.

DOI:10.1016/j.biortech.2018.01.150

PMID:29428613

Abstract

The present study investigates the conversion of acetate, propionate and hydrogen consumption linked to the microbial community structure and related to temperature and substrate concentration. Biogas reactors were continuously fed with coffee powder (20 g-COD/L) or acetate (20, 40, and 60 g-COD/L) and operated for 193 days at 37 °C or 55 °C conditions. Starting HRT was 23 days which was then reduced to 7 days. The kinetics of acetate and propionate degradation and hydrogen consumption rates were measured in batch assays. At HRT 7 days, the degradation rate of propionate was higher in thermophilic batches, while acetate degradation rate was higher at mesophilic conditions. The gaseous hydrogen consumption in acetate reactors increased proportionally with temperature and substrate concentration, while the dissolved hydrogen was not affected. The relative high abundance of hydrogentrophic methanogens indicated that the methanogenesis was directed towards the syntrophic acetate oxidation pathway at high acetate concentration and high temperature.

摘要

本研究考察了与微生物群落结构相关的、与温度和底物浓度有关的乙酸、丙酸转化和氢消耗。沼气反应器连续用咖啡粉（20g-COD/L）或乙酸（20、40 和 60g-COD/L）进料，在 37°C 或 55°C 条件下运行了 193 天。初始水力停留时间为 23 天，然后减少到 7 天。在批量实验中测量了乙酸和丙酸降解的动力学和氢气消耗速率。在 7 天的水力停留时间下，高温批次中丙酸的降解速率较高，而中温条件下乙酸的降解速率较高。乙酸反应器中气态氢气的消耗与温度和底物浓度成正比增加，而溶解氢不受影响。产氢甲烷古菌的相对高丰度表明，在高乙酸浓度和高温下，甲烷生成主要通过协同乙酸氧化途径进行。

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Impact of temperature and substrate concentration on degradation rates of acetate, propionate and hydrogen and their links to microbial community structure.温度和底物浓度对乙酸盐、丙酸盐和氢气降解速率的影响及其与微生物群落结构的关系。

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温度和底物浓度对乙酸盐、丙酸盐和氢气降解速率的影响及其与微生物群落结构的关系。

Impact of temperature and substrate concentration on degradation rates of acetate, propionate and hydrogen and their links to microbial community structure.

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