对低厚度无条件煤储量地下气化问题进行了探讨

P. Saik, V. Lozynskyi, D. Malachkevych, O. Cherniaіeva
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摘要

目的。以以Heroiv Kosmosu命名的PJSC“DTEK Pavlohradvuhillia”煤矿为例,通过对地下气化技术适用性的确立和气化过程质量和热指标的研究,形成了合理开发低厚度无条件煤储量的创新途径。方法。在分析研究的基础上,提出了煤就地地下气化技术实施的可能性。在“第聂伯罗理工大学”采矿工程与教育系教授Dychkovskyi R.O“地下煤气化储量适宜性评价方法”的基础上,建立了以Heroiv Kosmosu命名的矿区内煤气化储量适宜性的一般系数,该系数具有良好的开发前景。利用“MTB SPGV”软件研究了可燃气体和镇流器发生气体的输出参数,以及气化过程的化学效率和能源效率,该软件在实验室和现场试验中均通过了工业认证。发现。强调了目前与应用综合技术开发低厚度非条件煤储量有关的问题,这些技术可以大大延长采矿企业的寿命。特别是,在确定了煤炭储量的产地后,生产的方向是利用地下气化技术在其赋存地处理储量。建立了煤炭储量适宜性标准,确定了煤层气化优先级。基于燃料混合物参数的变化,研究了可燃气体和镇流器发生气体的输出。创意。建立了在向地下燃气发生炉供气和富氧吹气时,可燃燃气的输出量保持不变,不同之处在于这些气体在初始混合物中的浓度不同。这是由于吹气过程中氮气含量高,不能与煤发生化学反应,在反应通道温度低于900℃时,CO的输出减少了25-46%。实际意义。以Heroiv Kosmosu命名的矿井的条件确定了煤适合气化的标准。c12、c7top两煤层具有充分适宜煤地下气化的条件。
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To the issue of underground gasification of low-thickness unconditioned coal reserves
Purpose. Formation of an innovative approach in the rational development of low-thickness unconditioned coal reserves with the establishment of their suitability for underground gasification technology and the study of mass and heat indicators of the gasification process on the example of the mine of PJSC "DTEK Pavlohradvuhillia" named after Heroiv Kosmosu. Methods. The possibility of implementing the technology of in situ underground coal gasification was based on analytical studies. On the basis of the work developed by the professor of the Department of Mining Engineering and Education of "Dnipro University of Technology" Dychkovskyi R.O "Methods for assessing the suitability of reserves for underground coal gasification" established the general coefficient of the suitability of coal reserves for gasification located within the minefield named after Heroiv Kosmosu and are promising for future development. The output parameters of combustible and ballast generator gases, and the chemical and energy efficiency of the gasification process were studied using the "MTB SPGV" software, which passed industrial approval both during laboratory and field tests. Findings. Current issues related to the application of a combination the technologies for the development of low-thickness non-conditional coal reserves, which allow significantly extend the life of the mining enterprise, are highlighted. In particular, after working out the productive areas of coal reserves, the orientation of production is aimed at the processing of reserves at the place of their occurrence by underground gasification technology. Criteria for the suitability of coal reserves were established, which allowed the establishment of the priority of coal seams gasification. Based on the change in the parameters of the fuel mixture, the output of combustible and ballast generator gases was investigated. Originality. It was established that when air and oxygen-enriched blowing is supplied to the underground gas generator, the output volume of combustible generator gases remains the same, the difference lies in the concentration of these gases in the initial mixture. This is due to the high content of nitrogen during air blowing, which does not enter into a chemical reaction with coal, and at temperatures in the reaction channel below 900°C, the output of CO decreases by 25-46%. Practical implications. The conditions of the mine named after Heroiv Kosmosu defined criteria for the suitability of coal for gasification. Two coal seams of the mine c12 and c7top are in conditions of sufficient suitability for underground coal gasification.
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