金智新, 武司苑, 邓存宝, 戴凤威. 基于蒙特卡洛方法的煤吸附水机理[J]. 煤炭学报, 2017, (11). DOI: 10.13225/j.cnki.jccs.2017.0084
引用本文: 金智新, 武司苑, 邓存宝, 戴凤威. 基于蒙特卡洛方法的煤吸附水机理[J]. 煤炭学报, 2017, (11). DOI: 10.13225/j.cnki.jccs.2017.0084
JIN Zhixin, WU Siyuan, DENG Cunbao, DAI Fengwei. H2O adsorption mechanism in coal basing on Monte Carlo method[J]. Journal of China Coal Society, 2017, (11). DOI: 10.13225/j.cnki.jccs.2017.0084
Citation: JIN Zhixin, WU Siyuan, DENG Cunbao, DAI Fengwei. H2O adsorption mechanism in coal basing on Monte Carlo method[J]. Journal of China Coal Society, 2017, (11). DOI: 10.13225/j.cnki.jccs.2017.0084

基于蒙特卡洛方法的煤吸附水机理

H2O adsorption mechanism in coal basing on Monte Carlo method

  • 摘要: 为研究煤对水的吸附机理,建立煤大分子结构模型,采用巨正则系综蒙特卡洛方法,在分子尺度研究分析了压力1~100 k Pa不同温度下水在煤中的吸附行为,为涉及煤水相互作用的进一步研究奠定理论基础。结果表明:水的吸附量和等量吸附热与温度负相关,与压力正相关。在大于临界压力的某一压力下,两吸附位的势能概率分布间形成高原区,说明比例相当。超过该压力,相互作用更强的氢键占主要地位,吸附量开始急剧增大,发生毛细凝聚,形成水团簇。随着压力增大,吸附继续由较弱的H2O-煤相互作用的吸附位向较强的H2O-H2O相互作用的吸附位移动,直至全部作用在由已吸附的H2O形成的第2吸附位,等量吸附热趋于平稳。得到了水在煤中吸附过程概率密度的三维分布,从而更直观全方位地认识水的吸附行为及机理。

     

    Abstract: The macromolecular coal structural model is constructed and the H2 O adsorption behavior in coal is simula- ted using Grand Canonical Monte Carlo method at 1-100 kPa and at 298. 15,303. 15,313. 15 and 318. 15 K to inves- tigate the H2 O adsorption mechanism on molecular scale which lays a theoretical foundation for further research invol- ving the interaction between coal and water. The results show that the adsorbed amount and isosteric heat of H2 O show a negative correlation with temperature and a positive correlation with pressure. When pressure is greater than a critical pressure,there is a plateau area of potential energy probability distribution between two adsorption sites indicating equal proportion. When exceeding the pressure,the adsorbed amount increases sharply then capillary condensation oc- curs with water cluster because of the control of stronger hydrogen-bond interaction. With the increase of pressure,the adsorption process transfers from weaker adsorption sites provided by H2 O-coal interaction to stronger adsorption sites provided by H2 O-H2 O interaction,until total sites are secondary adsorption sites forming from adsorbed H2 O then the isosteric heat tend to be steady. The 3D probability density distribution provides a more intuitionistic comprehensive understanding to H2 O adsorption behavior and mechanism in coal.

     

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