强化煤地下气化反应通道产气方法综述

IF 2.8 Q2 MINING & MINERAL PROCESSING Mining of Mineral Deposits Pub Date : 2023-09-30 DOI:10.33271/mining17.03.067
Vasyl Lozynskyi
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引用次数: 2

摘要

目的。研究目的是对强化反应通道内产气过程的方法进行批判性分析,以提高煤层气化技术的效率和经济可行性。本文对该工艺的化学机理和工艺参数进行了详细的研究,以确定提高效率和生产率的可能性。方法。本文采用分析煤地下气化发展、研究反应通道内化学反应、研究温度、压力、爆破、产气成分等因素对煤地下气化的影响等方法进行综述研究。实验研究数据系统化是基于对发表在同行评议期刊上的科学论文的深入分析。发现。系统介绍了煤地下气化过程中强化反应通道产气过程的九种主要方法的研究成果。确定了对反应通道生气影响最大的因素。创意。研究结果表明了改进煤地下气化工艺的可能性。揭示不同因素之间的关系有助于更深入地了解反应通道中的化学和物理过程。实际意义。所得结果可用于优化煤地下气化工艺,提高产气效率和产气质量。指定的结果可以作为获得替代燃料的进一步科学研究和创新发展的基础。
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Critical review of methods for intensifying the gas generation process in the reaction channel during underground coal gasification (UCG)
Purpose. The research purpose is to perform a critical analysis of methods for intensifying the gas generation process in the reaction channel to improve the efficiency and economic feasibility of coal seam gasification technology. The paper studies in detail the aspects of the chemical mechanism and technological parameters of this process in order to determine the possibilities for improving efficiency and productivity. Methods. The review study is based on an approach that includes an analysis of the underground coal gasification development, the study of chemical reactions in the reaction channel, the study of the influence of factors such as temperature, pressure, blast and producer gas composition, etc. The experimental research data systematization is based on in-depth analysis of scientific papers published in peer-reviewed journals. Findings. The systematized results of research into nine main methods for intensifying the gas generation process in the reaction channel during underground coal gasification are presented. The factors having the greatest influence on gas generation in the reaction channel have been identified. Originality. Research results indicate the possibility of improving the process of underground coal gasification. The revealed relationships between different factors contribute to a deeper understanding of the chemical and physical processes in the reaction channel. Practical implications. The results obtained can be used to optimize the underground coal gasification process, increase the productivity and quality of gas generation. The specified results can serve as a basis for further scientific research and innovative developments in obtaining an alternative type of fuel.
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来源期刊
Mining of Mineral Deposits
Mining of Mineral Deposits MINING & MINERAL PROCESSING-
CiteScore
5.20
自引率
15.80%
发文量
52
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