• 论文
主办单位:煤炭科学研究总院有限公司、中国煤炭学会学术期刊工作委员会
煤泥厌氧发酵转化生物甲烷的影响因素分析
  • Title

    Analysis of influencing factors of biological methane production with coal slime by anaerobic fermentation

  • 作者

    郭红玉赵树峰陈振宏沈野季长江许小凯

  • Author

    GUO Hongyu,ZHAO Shufeng,CHEN Zhenhong,SHEN Ye,JI Changjiang,XU Xiaokai

  • 单位

    河南理工大学 能源科学与工程学院中国石油勘探开发研究院河南理工大学 资源环境学院

  • Organization
    School of Energy Science and Engineering,Henan Polytechnic University;Research Institute of Petroleum Exploration & Development,CNPC;Institute of Resources & Environment,Henan Polytechnic University
  • 摘要

    煤泥是选煤厂洗选的尾矿因储量巨大具有水分灰分高热值低等特点难以被处置常 被当作一种废弃物随意堆放由此造成土地资源的浪费和环境的污染为拓宽煤泥的利用途径实 现资源利用和环境保护对煤泥厌氧发酵转化生物甲烷的影响因素进行分析选取内蒙古锡林郭 勒盟矿山西燕子山矿和马兰矿河南赵固一矿选煤厂的煤泥以实验室驯化的菌液为菌种来源通 过生物产气模拟实验红外光谱荧光光谱16S rRNA 测试来分析不同煤泥产气差异的影响因素结果表明:不同煤泥生物产气能力不同产气受制于煤变质程度和有机质含量煤阶越低且有机质 含量越高煤泥的产气效果越好反之则相反;低变质程度煤泥经微生物降解后煤中脂肪结构羟 基氨基等各类基团更易脱落芳香类物质部分被转化为小分子量物质与高变质程度煤泥相比更 容易产气;低变质程度煤泥中的蛋白质类有机质被微生物分解较多产气较好而高变质程度煤泥 含有较多不易降解的腐殖质类有机质产气效果差不同煤泥菌群组成差异性较小细菌多样性高 于古菌细菌以假单胞菌拟杆菌属为主古菌以甲烷粒菌属甲烷丝菌属为主煤泥转化生物甲烷 受细菌影响较大优势细菌菌属对前期有机质降解起关键作用生物甲烷主要来源于甲烷粒菌属对CO2H2的转化利用研究结果揭示了不同煤泥产气差异的原因并为建立煤泥转化生物甲烷的 潜力评价方法提供参考


  • Abstract

    Coal slime is the tailings of coal preparation plant. It is difficult to dispose because of its huge amount,high moisture,ash and low calorific value. Coal slime is often dumped as a waste,resulting in a waste of land resource and environmental pollution. In order to increase the utilization of coal slime,realize an efficient utilization of resource and protect the environment,the factors influencing the conversion of coal slime into biomethane were explored. The coal slimes from the coal preparation plants of Xilinguole League Mine in Inner Mongolia,Yanzishan and Malan Mines in Shanxi and Zhaogu No.1 Mine in Henan were selected,and the domesticated bacterial liquid was used as the source of bacteria. The influence factors of gas production of different coal slimes were analyzed by biologi⁃ cal gas production simulation experiment,infrared spectrum,fluorescence spectrum and 16S rRNA tests. The results show that the biogas production capacities of coal slimes are different,and the biogas production is controlled by the metamorphism grade of coal and the content of organic matter. The lower the coal rank of coal slime and the higher the organic matter content, the better the gas production effect of coal slime is, and vice versa. After the microbial degradation of low rank coal slimes,various groups such as aliphatic structure,hydroxyl and amino in coal are easier to fall off,and the aromatic compound are partly converted into small molecular⁃weight substances, which are easier to produce gas than high rank coal slime. The protein organic matter in low metamorphic coal slimes are decomposed more by microorganisms,and the gas production effect is better,while the high metamorphic coal slime contains more humus organic matter,which is not easy to degraded,and the gas production effect is poor. The di⁃ versity of bacteria is higher than that of archaea. The bacteria is mainly consisted of Pseudomonas and Macellibacte⁃ roides,whereas the archaea is mainly consisted of Methanocorpusculum and Methanothrix. The biogas from coal slime is affected by bacteria,and dominant bacteria plays a key role in the degradation of organic matter in the early stage. The biomethane mainly comes from the conversion and utilization of CO2 and H2 by methanogens. The results re⁃ veal the reasons for the difference in the gas production from different coal slimes,and provide a reference for the es⁃ tablishment of a potential evaluation method for coal slime to convert biomethane.


  • 关键词

    煤泥生物甲烷官能团可溶性有机质菌群结构

  • KeyWords

    coal slime,biomethane,functional groups,dissolved organic matter;community structure

  • 引用格式
    郭红玉,赵树峰,陈振宏,等. 煤泥厌氧发酵转化生物甲烷的影响因素分析[J].煤炭学报,2021,46(S2):840-848.
  • Citation
    GUO Hongyu,ZHAO Shufeng,CHEN Zhenhong,et al. Analysis of influencing factors of biological methane production with coal slime by anaerobic fermentation [J]. Journal of China Coal Society,2021,46(S2):840-848.
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