煤地下气化过程中累积能量系统的实施要点

V. Falshtynskyi, P. Saik, R. Dychkovskyi, V. Lozynskyi, M. Demydov
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摘要

目的。在煤炭气化过程中实施地下发热装置,为合理开发煤矿潜力,扩大矿山企业经济活动提出了创新思路。方法。在进行了分析和实验室研究的基础上,研究了在煤产地气化过程中引入地下热发生器和热电联产系统的可能性。进行分析研究的基础是实施指定模块和热电联产厂的经验。实验室研究的基础是一个实验室设置,可以根据煤层赋存的采矿地质条件、向火面反射镜提供注入爆破混合物的方法和途径,对产生的瓦斯发生器中的热化学和地质力学过程进行建模。发现。重点分析了当前以矿山企业为主体实施累计能源制度存在的问题。已经确定,扩大煤矿企业经济活动范围的可能基础是实施地下气化技术。后者的主要产品是产气、热能和化工原料。研究了地下瓦斯发生炉直接底部温度场和产气井出口产气温度的变化参数。在此基础上,提出了地下供热系统的技术方案。这使得在煤的气化过程和地下燃气发生器的衰减阶段使用技术热能成为可能,以及利用钻孔地下煤气化(BUCG)产品积累热量的热电联产系统方案。创意。为煤气化现场合理开发技术热能开辟了一条创新途径。实际意义。在煤炭气化过程中,在其发生地点实施基于地下热发生器的累积能源系统,并随后使用热技术环境,可以创建紧凑的能源模块,以满足采矿企业的能源需求。
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Aspects for implementing the cumulative energy systems during underground coal gasification
Purpose. An innovative approach formulation to the rational development of the potential of coal mines to expand the economic activity of mining enterprises based on the implementation of underground heat generators during coal gasification. Methods. Based on the conducted analytical and laboratory research, to study the possibility of introducing underground heat generators and cogeneration systems during gasification of coal at the site of its occurrence. The basis for conducting analytical studies is the experience of implementing the specified modules and cogeneration plants. The basis for laboratory research is a laboratory setup that allows modeling the behavior of thermochemical and geomechanical processes in the resulting gas generator, depending on the mining-geological conditions of the coal seam occurrence, methods and ways of supplying injected blast mixtures to the fire face mirror. Findings. Current issues of implementing the cumulative energy systemsbased on mining enterprises are highlighted. It has been determined that a possible basis for expanding the range of economic activity at a coal-mining enterprise is the implementation of underground gasification technology. The main products of the latter are producer gas, thermal energy and chemical raw materials. The parameters of changing the temperature field in the immediate bottom of the underground gas generator and the producer gas temperature at the outlet from the gas production borehole have been studied. On the basis of their changes, the technological schemes of the underground heat generator are proposed. This makes it possible to use technogenic thermal energy both in the process of coal gasification and at the stage of attenuation of an underground gas generator, as well as a scheme of a cogeneration system with heat accumulation from products of borehole underground coal gasification (BUCG). Originality. An innovative approach has been developed to the rational technogenic thermal energy development during coal gasification at the site of its occurrence. Practical implications. The implementation of cumulative energy systems based on underground heat generators during coal gasification at the site of its occurrence and the subsequent use of thermal technogenic environment allow creating compact energy modules that can satisfy the energy needs of a mining enterprise.
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