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含瓦斯环境下风干水浸贫瘦煤的自燃特性研究OA

Study on spontaneous combustion characteristics of air-dried water-soaked lean coal in a gas-containing environment

中文摘要英文摘要

为明确井下长期处于水浸和含瓦斯风流下遗煤的自燃风险,研究水浸和瓦斯双重作用对其自燃特性的影响,将部分煤样用蒸馏水在 30℃恒温下浸泡 30 d后得到水浸煤样,采取煤自燃程序升温实验、同步热分析实验和红外光谱实验,分析在 0、1.5%、3.0%3 种体积分数的瓦斯气氛下风干后的原煤和水浸煤在其相应的瓦斯体积分数下的低温氧化过程中的氧化产物、表观活化能和放热强度随温度的变化规律,以及低温氧化后的官能团演化特征.结果表明:随着瓦斯体积分数的增加,低温氧化过程中,2 种煤样的耗氧速率、氧化产物生成速率、总放热量以及活性基团相对含量在逐渐减少;水浸煤氧化进程中的耗氧速率、总放热量以及活性基团相对含量的降幅大于原煤;C2H4 出现、热平衡以及热流达到峰值时的温度均随瓦斯体积分数的增加而升高,表现出明显的温度"滞后现象",且水浸煤升高幅度均大于原煤;低温氧化所需的活化能也逐渐增加,且水浸煤增量大于原煤;在同一瓦斯体积分数下,水浸煤的耗氧速率、氧化产物生成速率、总放热量以及活性基团相对含量均大于原煤;C2H4 的出现、热平衡、低温氧化所需的活化能以及热流峰值温度点小于原煤.综合分析可以发现,水浸煤相较于原煤表现出更强的自燃性,因此同一瓦斯体积分数下,瓦斯对水浸贫瘦煤的氧化抑制作用更强;但水浸对贫瘦煤自燃的促进作用大于瓦斯对水浸煤的抑制作用;在低瓦斯体积分数环境下水浸贫瘦煤相较于原煤更易氧化和自燃.

To clarify the spontaneous combustion risk of residual coal under long-term water immersion and gas-containing airflow in underground mines and investigate the effects of dual water immersion and gas action on its spontaneous combustion characterist-ics,water-soaked coal samples were prepared by immersing partial coal samples in distilled water at a constant temperature of 30℃for 30 days.Programmed temperature rise experiments for coal spontaneous combustion,simultaneous thermal analysis,and in-frared spectroscopy were conducted to analyze the temperature-dependent variations in oxidation products,apparent activation en-ergy,and heat release intensity during the low-temperature oxidation process of air-dried raw coal and water-soaked coal under three gas volume fractions(0,1.5%,and 3%).Additionally,the evolution characteristics of functional groups after low-temperature oxida-tion.The results show that with the increase of gas volume fraction during low-temperature oxidation,the oxygen consumption rate,oxidation product generation rate,total heat release,and relative content of active functional groups of two coal samples gradually decrease,with more significant reductions observed in water-soaked coal compared to raw coal;the temperatures corresponding to the occurrence of C2H4,the achievement of thermal equilibrium,and the peak of heat flux all increase with the rise in gas volume fraction,Showing an obvious temperature hysteresis,and the increase in water-soaked coal is greater than that of raw coal;the activ-ation energy required for low-temperature oxidation increases progressively,with a larger increment in water-soaked coal.Under the same gas volume fraction,water-soaked coal demonstrates higher oxygen consumption rate,oxidation product generation rate,total heat release,and relative active functional group content than raw coal;the appearance of C2H4,thermal equilibrium,low-temperat-ure oxidation activation energy,and heat flux peak temperature are lower in water-soaked coal than in raw coal.Comprehensive ana-lysis reveals that water-soaked coal exhibits stronger spontaneous combustion tendency than raw coal,indicating that gas exerts a more stronger inhibitory effect on the oxidation of water-soaked lean coal at the same gas volume fraction.However,the promoting effect of water immersion on the spontaneous combustion of lean coal outweighs the inhibitory effect of gas on water-soaked coal.In environments with low gas volume fractions,water-soaked lean coal is more prone to oxidation and spontaneous combustion than raw coal.

王晓琰;年军;吕晓波;赵博;杜丽敏

太原理工大学 安全与应急管理工程学院,山西 太原 030024太原理工大学 安全与应急管理工程学院,山西 太原 030024太原理工大学 安全与应急管理工程学院,山西 太原 030024太原理工大学 安全与应急管理工程学院,山西 太原 030024太原理工大学 安全与应急管理工程学院,山西 太原 030024

矿业与冶金

煤自燃特性瓦斯水浸煤表观活化能放热强度官能团演化特征

coal spontaneous combustion characteristicgaswater-soaked coalapparent activation energyheat release intensityfunctional groups evolution characteristic

《煤矿安全》 2026 (1)

45-55,11

国家自然科学基金面上资助项目(52274220,52474244)山西省基础研究计划(自由探索类)青年资助项目(202203021212260)

10.13347/j.cnki.mkaq.20241217

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