Assessment of water-based compositions efficiency for cooling place of lignite spontaneous combustion in strip mines

Q4 Engineering Gornaya Promyshlennost Pub Date : 2023-08-25 DOI:10.30686/1609-9192-2023-4-89-94
V.A. Portola, O.I. Cherskikh, S.I. Protasov, E.A. Seregin, I.A. Shvakov
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Abstract

Places of spontaneous coal combustion cause significant economic losses to the mining operations due to coal losses and accident elimination costs, while toxic gases and high temperatures threaten the health and life of employees. Coal cooling is a necessary condition to eradicate spontaneous fire seats. The most effective way to eliminate spontaneous fires is excavation of heated coal. Coal cooling can take place due to heat exchange with the atmosphere or the supplied refrigerants. The performed studies have shown that air-cooled lignite shows increased oxygen sorption capacity. As the initial temperature of the coal goes up, the activity of cooled coal increases. Thus, if natural coal was characterized with the oxygen sorption rate constant of 0.1348 ml/(g∙h), the coal cooled down upon heating up to 50°C already showed 0.2191 ml/(g∙h), while with coal being heated up to 100°C this parameter went up to 0.3153 ml/(g∙h). The latent time of spontaneous combustion of air-cooled lignite significantly decreases with the increasing heating temperature (2-3 times) due to lignite activation and reduction in its moisture content, which increases the danger of recurrent spontaneous firing. The use of water and water-based compositions for lignite cooling significantly reduces the coal's oxygen sorption rate constant and increases the latent time of spontaneous combustion. Calcium chloride proved to be the most effective means for cooling lignite among the investigated water-based compositions, while liquid glass (sodium silicate) had the least effect. Air cooling of coal leads to intensified emission of carbon monoxide, while cooling with water and water-based compositions reduces the release of this hazardous gas by several times.
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露天矿褐煤自燃冷却处水基组合物效率评价
煤炭自燃场所的煤炭损失和事故消除费用给矿山作业造成重大经济损失,有毒气体和高温威胁着职工的健康和生命安全。煤冷却是消除自燃座位的必要条件。消除自燃最有效的方法是采掘受热煤。煤的冷却可以通过与大气或供应的制冷剂进行热交换来实现。研究表明,风冷褐煤的吸氧能力增强。随着煤的初始温度升高,冷却后的煤的活性增加。因此,如果天然煤的吸氧速率常数为0.1348 ml/(g∙h),则加热至50℃冷却后的煤的吸氧速率常数为0.2191 ml/(g∙h),而加热至100℃时,吸氧速率常数为0.3153 ml/(g∙h)。随着加热温度的升高(2 ~ 3倍),由于褐煤的活化和含水率的降低,风冷式褐煤的自燃潜伏时间明显缩短,增加了反复自燃的危险性。使用水和水基组合物对褐煤进行冷却,显著降低了煤的吸氧速率常数,增加了自燃的潜伏时间。在所研究的水基组合物中,氯化钙被证明是冷却褐煤最有效的手段,而液体玻璃(硅酸钠)的效果最差。煤的空气冷却导致一氧化碳的排放加剧,而用水和水基组合物冷却可以将这种有害气体的释放减少几倍。
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来源期刊
Gornaya Promyshlennost
Gornaya Promyshlennost Engineering-Industrial and Manufacturing Engineering
CiteScore
1.10
自引率
0.00%
发文量
100
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