煤矿井壁内源火灾位置的仪器监测

IF 0.2 Q4 FORESTRY
Vsevolod Kalaigoroda, S. Prostov, Evgenii Shabanov
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引用次数: 0

摘要

介绍。内燃是指由煤的自燃过程引起的火灾。这类火灾的探测是通过火焰和烟雾或温度、气体或地球物理控制的结果进行的。煤矿内源火灾的发生造成了环境污染、卫生条件恶化等严重后果。它还会因工艺流程暂停和煤炭储量耗尽而导致经济损失。内生火灾的预防包括在已确定的潜在火灾危险区域防止自燃过程可能发展的措施。研究目的是对活动煤矿的火灾区域进行调查,以确定地球物理测深剖面的中心,使其尽可能靠近内源火灾的震中,并与矿井平面图和地质剖面进行绑定。研究方法。为了实现这一目标,有必要对着火地区进行目视检查,拍摄照片,并使用专门设备进行热成像调查。结果。记录了照片和热成像调查结果,进行了内生火源形成的采矿和地质条件评价,提出了内生火源选址方案。结论和结果范围。通过对内源火灾中心附近区域的检查和调查措施的实施,以及对结果的分析,可以得出直接目视检查和热成像测量不能在平面和深度上充分确定火区边界的结论。这是因为由于煤和寄主岩石的低导热性,只有当焦点直接在地面上时才会记录到明显的温度异常。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Instrumental monitoring for the location of endogenous fires in the coal mine wall
Introduction. Endogenous fire is a fire initiated by the process of self-ignition of coal. Detection of this type of fire is carried out visually by fire and smoke or by the results of temperature, gas or geophysical control. The occurrence of endogenous fires in coal mines leads to serious consequences, such as pollution of the environment and deterioration of sanitary and hygienic working conditions. It also leads to economic losses due to the suspension of technological processes and burnout of coal reserves. The prevention of endogenous fires includes measures to prevent the possible development of self-ignition processes in the identified areas of potential fire hazard. Research objective is to investigate areas of fire in active coal mines in order to determine the center of the profile of geophysical sounding, as close as possible to the epicenter of endogenous fire, to perform its binding to the mine plan and geological section. Methods of research. In order to achieve this goal, it is necessary to carry out a visual inspection of the areas of fire, to take photographs, as well as to carry out a thermal imaging survey with specialized equipment. Results. The results of photo- and thermal imaging surveys were recorded, the assessment of mining and geological conditions of formation of endogenous fires was carried out, and plans of the location of endogenous fires were presented. Conclusions and scope of results. After implementation of measures on inspection and survey in areas close to the centers of endogenous fires, as well as analysis of the results, we can conclude that direct visual inspections and thermal imaging measurements do not allow to fully determine the boundaries of fire zones in plan and depth. This is due to the fact that noticeable temperature anomalies are recorded only when the focus is directly on the ground surface due to the low thermal conductivity of coal and host rocks.
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