Analyzing the process of gas production for natural gas hydrate using depressurization
发表时间:2019-03-09
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论文类型:期刊论文
第一作者:Zhao, Jiafei
通讯作者:Song, YC (reprint author), Dalian Univ Technol, Minist Educ, Key Lab Ocean Energy Utilizat & Energy Conservat, Dalian 116023, Peoples R China.
合写作者:Zhu, Zihao,Song, Yongchen,Liu, Weiguo,Zhang, Yi,Wang, Dayong
发表时间:2015-03-15
发表刊物:APPLIED ENERGY
收录刊物:SCIE、EI、ESI高被引论文
文献类型:J
卷号:142
页面范围:125-134
ISSN号:0306-2619
关键字:Hydrate; Depressurization; Sensible heat; Thermal conductivity;
Dissociation
摘要:Natural gas hydrate is a vast energy resource with global distribution in permafrost regions and in the oceans; its sheer volume demands that it be evaluated as a potential energy source. Understanding the mechanisms of natural gas extraction from hydrate-bearing sediments is critical for the utilization of hydrate accumulations. In this work, methane hydrate dissociation was performed in three kinds of porous media at production pressures of 2.2 MPa, 2.6 MPa, and 3.0 MPa. Results show that the methane gas production process can be divided into three main stages: free gas liberation, hydrate dissociation sustained by the sensible heat of the reservoir, and hydrate dissociation driven by ambient heat transfer. In the process of gas production, hydrate dissociation occurs simultaneously throughout the hydrate zone along the phase equilibrium curve, and then spreads radially from the outside as a result of ambient heat transfer. Hydrate reformation and ice generation always occur in the reservoir interior due to insufficient heat transfer. The use of porous media with increased thermal conductivity accelerates the gas production rate; however, it has little influence on the final percentage of gas production. Furthermore, the Stefan (Ste) number and dissociation rate constant were employed to evaluate the impact of the sensible heat of the reservoir and ambient heat transfer. Results indicate that the sensible heat of the reservoir and ambient heat transfer play a dominant role in hydrate dissociation, and that both are dependent on production pressures. (C) 2015 Elsevier Ltd. All rights reserved.
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