Chemical Industry and Engineering Progress ›› 2020, Vol. 39 ›› Issue (S2): 128-134.DOI: 10.16085/j.issn.1000-6613.2020-0986

• Energy processes and technology • Previous Articles     Next Articles

Comparative study on the isosteric enthalpy of desorption with different rank of normal coal and deformed coal

Xuemei ZHANG1(), Qinghua MA1, Jingyuan HAO2, Dong LI1   

  1. 1.Energy & Chemical Engineering Research Center, Xi’an Siyuan University, Xi’an 710038, Shaanxi, China
    2.College of Chemical Engineering, Xi’an Jiaotong University, Xi’an 710038, Shaanxi, China
  • Received:2020-06-03 Online:2020-11-17 Published:2020-11-20
  • Contact: Xuemei ZHANG

不同煤阶的原生煤、构造煤等量解吸焓的比较

张学梅1(), 马青华1, 郝静远2, 李东1   

  1. 1.西安思源学院能源及化工大数据应用教学研究中心,陕西 西安 710038
    2.西安交通大学化工学院,陕西 西安 710038
  • 通讯作者: 张学梅
  • 作者简介:张学梅(1987—),女,硕士,讲师,研究方向为煤炭资源高效清洁利用。E-mail:476333285@qq.com
  • 基金资助:
    陕西省教育厅2020年度一般专项科学研究计划(20JK0858)

Abstract:

Different coal rank has different controlling effect on gas. According to the temperature-pressure-adsorption equation, the series of isotherm adsorption data of both normal coal and deformed coal with high-rank from Daning Coal Mine of Qinshui Basin and middle-rank from Pingdingshan Minmetals have been effectively converted. The isosteric enthalpy of adsorption of these coals are calculated. The adsorption isotherms of these coals are the system exothermic to the environment, and the more exothermic the system is, the more stable the system is. While the desorption is that the system endothermic from the environment, and the less endothermic the system is, the more stable the system is. When the adsorption capacity is 15.0cm3/g, the exothermic heat of the unit isosteric enthalpy of adsorption is 1.95kJ/(mol·cm3·g) for high-rank normal coal, which is higher than the other three kinds of coal. Therefore, it must be the first to be adsorbed. When the adsorption capacity is 15.0cm3/g, the endothermic heat of the unit isosteric enthalpy of desorption is 0.52kJ/(mol·cm3·g) for middle-rank deformed coal, which is lower than that of the other three kinds of coal. Therefore, it must be the first to be desorbed. It is suggested to measure the endothermic heat of the unit isosteric enthalpy of desorption for different kinds of deformed coal (broken coal, slice coal, freckled coal, mylonitized coal, etc.), which can provide thermodynamic reference for the study of coal and gas outburst.

Key words: normal coal, deformed coal, coal rank, unit isosteric enthalpy of desorption, coal and gas outburst

摘要:

煤阶不同,对瓦斯的控制作用亦不同。本文根据温度-压力-吸附方程将沁水盆地大宁煤矿的高阶原生煤、构造煤与平顶山五矿的中阶构造煤、原生煤这4种煤的系列等温吸附数据进行有效地转换,并由所得的温度-压力-吸附方程计算这些煤的吸附等量线。高中阶原生煤与构造煤的吸附等量线都证实:吸附是系统向环境放热,放热越多,则系统越稳定;解吸是系统从环境吸热,吸热越少,则系统越稳定。在吸附量都为15.0cm3/g时,高阶原生煤单位等量吸附所放的热为1.95kJ/(mol·cm3·g),均高于其他3种煤,其必然最先吸附。在吸附量都为15.0cm3/g时,中阶构造煤单位等量解吸所吸的热为0.52kJ/(mol·cm3·g),均低于其他3种煤,其必然最先解吸。建议将不同构造煤(碎裂煤、片状煤、碎斑煤、糜棱煤等)按照单位等量解吸所吸热量的大小进行解吸排序,可为煤及瓦斯突出研究提供热力学参考。

关键词: 原生煤, 构造煤, 煤阶, 单位等量解吸焓, 煤及瓦斯突出

CLC Number: 

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