Thermodynamics, kinetics and modeling of sorption behaviour of coalbed methane – A review

Sujoy Chattaraj , Debadutta Mohanty , Tarkeshwar Kumar , Gopinath Halder
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引用次数: 80

Abstract

The gradual depletion of the conventional energy reserves and ever growing energy demand has been the matter of global concern over the last few decades. Shrinking coal and petroleum resources have posed researchers to look for exploration and exploitation of unconventional gas resources. In this scenario, natural gas is not only a promising alternative solution towards mitigation of energy crisis but also a potential candidate to reduce the environmental impact through restraining the greenhouse gas effect. In this context, methane extraction from coalbeds has gained its commercial viability in different parts of the world viz. USA, China, Australia, India etc.

The review highlights global scenario of coalbed methane (CBM), transport of methane through coalbed, the sorption behavior of methane within the unconventional gas reservoirs, thermodynamic activities of gas adsorption into reservoir bed in terms of thermodynamics parameters viz. Gibbs free energy, temperature, enthalpy and entropy and the kinetic study of the contrivance of methane discharge for indicating the type of gas adsorbed onto the surface of coal matrix and time lapsed for saturation of coalbed. Maturity, geology and geochemical characteristics of coal have been reviewed for differential methane sorption in coal reservoirs. Diffusion and sorption isotherm model which fits the experimental data related to gas retention and release mechanism has also been discussed. Finally, different physicochemical characteristics of coal responsible for the methane gas storage and recovery have been discussed.

煤层气吸附行为的热力学、动力学和模型研究进展
在过去的几十年里,常规能源储备的逐渐枯竭和不断增长的能源需求一直是全球关注的问题。煤炭和石油资源的萎缩促使研究人员寻找非常规天然气资源的勘探和开发。在这种情况下,天然气不仅是缓解能源危机的一种有希望的替代解决方案,而且是通过抑制温室气体效应来减少环境影响的潜在候选者。在此背景下,煤层气开采已在美国、中国、澳大利亚、印度等世界不同地区获得了商业可行性。本文重点介绍了煤层气(CBM)的全球情景、甲烷在煤层气中的运移、甲烷在非常规气藏中的吸附行为、气体吸附到储层的热力学活动,包括热力学参数(吉布斯自由能、温度、用焓、熵和甲烷排放装置的动力学研究来指示吸附在煤基体表面的气体类型和煤层饱和时间。综述了煤的成熟度、地质特征和地球化学特征,探讨了煤储层对甲烷的差异吸附。讨论了符合实验数据的扩散和吸附等温线模型与气体保留和释放机理的关系。最后,讨论了煤的不同物理化学特性对甲烷气体的储存和回收的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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