管理地下煤气化过程

Q3 Engineering
P. Saik, V. Lozynskyi, O. Anisimov, O. Akimov, A. Kozhantov, O. Mamaykin
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引用次数: 0

摘要

研究目的研究目的是根据对可燃气体成分(Н2、СН4、СО)和生产气体热值的分析,确定煤气化过程的效率参数,具体取决于向气化炉氧化区供应鼓风混合物的方法。方法。使用实验室装置对地下煤层气化进行实验研究。其组成部分包括支架、供应鼓风和瓦斯出口混合物的分支机构以及流量控制系统。该装置可根据煤层的开采地质条件模拟煤层的形成。在确定气化过程效率时,测试了两种供应爆破混合物的方法:通过爆破喷射井和组合方法(爆破喷射井+控制管道)。根据 "加法法则",并考虑到每种可燃气体的浓度及其热值,通过分析确定了生成的生产气体热值。研究结果在改变混合气体供应方式时,地下气化炉的效率得到了证实。根据模型地下气化炉出口处可燃气化气体浓度的定性数据,确定了增加可燃气体浓度的条件,并确定了随着排气空间的增加可燃气体浓度下降的时间间隔。原创性。研究发现,在地下气化炉中使用联合爆破法会向气化区提供双重氧化剂。这就加强了气化过程,沿气化柱长度和煤层厚度扩大了气化反应区。此外,联合供应爆破混合物的方法还能提高热稳定性和瓦斯形成参数。实用价值。研究成果使我们能够快速做出改变地下气化炉运行模式的技术决策,并确定最佳的混合气体供应方法,从而提高生产气体的质量和热值。将鼓风供气方式改为混合供气方式后,Н2、СН4 和СО可燃气体的平均浓度提高了 3.85%,热值平均提高了 0.53 兆焦/立方米。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Managing the process of underground coal gasification
Purpose. The research purpose is to determine the efficiency parameter of the coal gasification process based on the analysis of the composition of combustible gases (Н2, СН4, СО) and the producer gas calorific value, depending on the methods of supplying the blast mixtures to the gasifier oxidative zone. Methodology. A laboratory setup is used to perform experimental research into underground coal seam gasification. Its constituent segments are a stand, branches for supplying blast and gas-outlet mixtures, as well as a flow control system. This setup makes it possible to model the coal seam occurrence according to the mining-geological conditions of its occurrence. When determining the gasification process efficiency, two methods of supplying the blast mixture are tested: through a blast injection well and combined method (blast injection well + controlled pipeline). The generated producer gas calorific value has been determined analytically according to the “additivity rule”, taking into account the concentration of each combustible gas and its calorific value. Findings. The underground gasifier efficiency when changing the method of supplying the air mixture has been substantiated. Based on qualitative data on the concentration of combustible gasifier gases at the outlet of a modeled underground gasifier, conditions for increasing their concentration have been characterized and time intervals have been determined, through which their decrease occurs with increasing outgassed space. Originality. It has been revealed that the use of combined blast method in an underground gasifier causes a double supply of oxidizing agent to the gasification zone. This intensifies the gasification process by expanding the gasification reaction zones both along the length of the gasification column and along the seam thickness. Also, the combined method of supplying the blast mixture is characterized by improved thermal stability and gas formation parameters. Practical value. The research results make it possible to quickly make technological decisions for changing the operating modes of the underground gasifier, as well as determine the optimal method for supplying air mixtures, which improves the quality and calorific value of the producer gas. When changing the blast supply method to a combined method, the average concentration of Н2, СН4 and СО combustible gases increases by 3.85 %, and the calorific value increases by an average of 0.53 MJ/m3.
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来源期刊
CiteScore
1.70
自引率
0.00%
发文量
148
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