山地固体热物理性质的实验研究

S. Minieiev, S. Demchenko, O. Yanzhula, R. Makarenko
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引用次数: 0

摘要

目的。获取PJSC“CG Pokrovske”岩石样品在正常条件下的热物理性质数据,以增加确定火源位置的方法的通用性,火灾在生产空间的位置,获得其条件的评估和在燃烧的各个阶段的监测控制。研究方法。本文旨在研究岩石的传热特性,特别是确定岩石的热物理性质,为此,借助导热分析仪TНВ-100对Pokrovska矿岩石样品的导热系数、导热系数和比热容进行了实验研究,并使用MIT-1导热仪测定了湿度对其导热系数的影响。结果。获得的“CG Pokrovske”粉砂岩、砂岩和煤样的导热系数、热扩散系数和比热容数据可用于改进现有的火源及其在开采空间中的位置查找方法,以及评估和控制火灾状态。这种改进的结果可以是任何工作,其中有可能获得一种更普遍的评估火灾状态的方法-熄灭或燃烧的火灾的事实,火区的温度,确定煤炭点火中心的位置,以及实际上,在开采空间中的火灾本身。科学的新奇。已经确定,随着岩石样品重量湿度的增加,它们的导热系数成比例地增加,这可以解释为,随着湿度的增加,后者改善了颗粒碰撞处的热接触,在那里,首先,水分进入材料的最小孔隙并取代空气。现实意义。在矿山中,在对开挖火石进行温度测量时,对温度指标的预测非常重要,以评估火灾的发展过程,以便尽快扑灭火灾。这些指标对于实际评估灭火中心的环境状况很重要,因为它们是确定地块岩石冷却的控制,并最终间接表明燃烧或灭火的事实。通过实验研究获得的岩样的热物理性质,可以增加其燃烧不同阶段的火灾评价方法的通用性,从而提高煤矿的内源火灾安全水平。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
EXPERIMENTAL STUDIES OF THERMOPHYSICAL PROPERTIES OF MOUNTAIN SOLIDS
Purpose. Obtaining data on the thermophysical properties of rock samples of PJSC “CG Pokrovske” under normal conditions in order to increase the versatility of methods for determining the location of the fire source, the location of the fire in the produced space, obtaining an assessment of its condition and monitoring control at various stages of combustion. Research methodology. The article is aimed at studying the characteristics of heat transfer in rocks, in particular at determining the thermophysical properties of rocks, for which experimental studies of thermal conductivity, thermal conductivity and specific heat capacity of rock samples of the Pokrovska mine were carried out with the help of a thermal conductivity analyser TНВ-100 and the influence of humidity on their thermal conductivity was determined properties using the MIT-1 thermal conductivity meter. Results. The obtained data on thermal conductivity, thermal diffusivity and specific heat capacity of siltstone, sandstone and coal samples taken from the “CG Pokrovske” can be used to improve the existing methods of finding the source of the fire and its location in the mined space, as well as to assess and control the state of the fire. The result of such an improvement can be any work in which it is possible to obtain a more universal way of assessing the state of the fire – the fact of an extinguished or burning fire, the temperature in the fire zone, determining the location of the coal ignition centre and, in fact, the fire itself in the mined space. Scientific novelty. It has been established that with an increase in the weight humidity of rock samples, there is a proportional increase in their thermal conductivity, which is explained by the fact that with an increase in humidity, the latter improves thermal contact in places where particles collide, where, first of all, moisture gets into the smallest pores of the material and displaces air from them. Practical significance. In mines, great importance is given to the forecast of temperature indicators when measuring the temperature of the fire rock in the excavation to assess the process of fire development in order to extinguish them as quickly as possible. These indicators are important for the actual assessment of the state of the environment in the centre of its extinguishing, as they are control for determining the cooling of the rocks of the massif and, ultimately, indirectly indicate the fact of a burning or extinguished fire. The thermophysical properties of rock samples obtained as a result of experimental studies make it possible to increase the versatility of fire assessment methods at various stages of its combustion and, in general, to increase the level of endogenous fire safety of coal mines.
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