摘要
为了得出煤吸附甲烷过程中能量变化规律,通过高低温智能吸附实验箱分别进行温度为30、15、0、-15、-30、-45℃,初始吸附压力为1、1.5、2、2.5、3 MPa的煤吸附甲烷实验。结果表明:加大注气压力和降低吸附温度是影响煤在吸附甲烷过程温度变化量增大的2个重要因素;一定质量煤样吸附甲烷前后表面自由能会降低,热量会升高,且其差值因甲烷压力的升高而逐步增大;升压或降温在煤吸附甲烷过程中都使得煤温度变化量增大,实质上是煤表面自由能甲烷分子势能转化为热量值来维持整体能量平衡的现象。
In order to obtain the energy change rule in coal adsorbing methane process, methane adsorption experiments were carried out with the temperature of 30 ℃, 15 ℃, 0 ℃,-15℃,-30 ℃,-45 ℃ and the initial adsorption pressure of 1 MPa, 1.5MPa, 2 MPa, 2.5 MPa, 3 MPa by the high and low temperature intelligent adsorption experiment chamber. The results show that increasing the gas injection pressure and decreasing the adsorption temperature are two important factors that affect the increase of temperature variation in the process of methane adsorption;the surface free energy of coal samples with a certain mass decreases and the heat increases before and after methane adsorption, and the difference increases gradually due to the increase of methane pressure;in the process of coal adsorbing methane, either pressure boost or temperature drop will increase the coal temperature variation, it is essentially a phenomenon that methane molecular potential energy of coal surface free energy is converted into heat value to maintain the overall energy balance.
作者
许文杰
姚彦军
王毅
王开
XU Wenjie;YAO Yanjun;WANG Yi;WANG Kai(College of Safety and Emergency Management Engineering,Taiyuan University of Technology,Taiyuan 030024,China;Shuozhou Emergency Command Center,Shuozhou 036000,China;College of Mining Engineering,Taiyuan University of Technology,Taiyuan 030024,China)
出处
《煤矿安全》
CAS
北大核心
2023年第2期40-45,共6页
Safety in Coal Mines
关键词
含瓦斯煤
低温
加压
瓦斯吸附
表面自由能
热量
coal containing gas
low temperature
increasing pressure
gas adsorption
surface free energy
quantity of heat
