基于吸附势理论的煤吸附CO超临界模型构建

    Construction of supercritical model for coal adsorbing CO based on adsorption potential theory

    • 摘要: 受火成岩入侵以及埋深的影响,处于高温高压状态下的煤对CO吸附能力变化较大,处于远超过临界温度和压力条件下的CO以超临界状态附着在煤体表面,导致该环境条件下的煤层常常出现CO涌出现异常的现象,进而影响通过CO体积分数变化对煤层自燃进行预测的准确性。为研究环境压力超过CO临界压力时,煤体对超临界状态CO吸附能力的变化,并对不同温度压力下煤层对超临界状态CO吸附能力进行预测,基于Polanyi吸附势理论,从势能变化的角度,通过结合等温吸附实验数据,构建出压力,温度以及CO吸附量之间的关系模型,从而得以预测对不同温度不同压力煤体对CO气体的吸附量,进而为完善通过CO体积分数对煤层自燃进行预测的指标气体预测法提供有效的理论依据。

       

      Abstract: Under the influence of igneous rock invasion and burial depth, the adsorption capacity of CO of coal under high temperature and high pressure varies greatly, and CO attached to the surface of coal body under the condition of far more than the critical temperature and pressure is in supercritical state, resulting in the occurrence of abnormal CO surge in coal seams under such environmental conditions. Then it affects the accuracy of prediction of spontaneous combustion of coal seam by the change of CO concentration. In order to study the change of supercritical CO adsorption capacity of coal body when the environmental pressure exceeds the critical pressure of CO, and to predict the supercritical CO adsorption capacity of coal seam under different temperature and pressure, based on Polanyi adsorption potential theory, from the perspective of potential energy change, through combining isothermal adsorption experimental data, the relationship model between the pressure, temperature and CO adsorption capacity can be used to predict the adsorption capacity of CO gas on coal body at different temperatures and pressures, which provides an effective theoretical basis for improving the index gas prediction method of predicting spontaneous combustion of coal seam by CO concentration.

       

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