气候变化领域集成服务门户(CCPortal): Modelling and optimization of enhanced coalbed methane recovery using CO2/N2 mixtures

CCPortal

DOI	10.1016/j.fuel.2019.04.158
	Modelling and optimization of enhanced coalbed methane recovery using CO2/N2 mixtures
	Fan C.; Elsworth D.; Li S.; Chen Z.; Luo M.; Song Y.; Zhang H.
发表日期	2019
ISSN	162361
起始页码	1114
结束页码	1129
卷号	253
英文摘要	Injection of gas mixtures (CO2, N2)into coal seams is an efficient method to both reduce CO2 emissions and increase the recovery of coalbed methane. This process involves a series of complex interactions between ternary gases (CH4, CO2, and N2)co-adsorption on coals, mass transport of two-phase flow, together with heat transfer and coal deformation. We develop an improved thermo-hydro-mechanical (THM)model coupling these responses for gas mixture enhanced CBM recovery (GM-ECBM). The model is first validated, and then applied to simulate and explore the evolution of key parameters during GM-ECBM recovery. Schedules of constant- and variable-composition injection are optimized to maximize CH4 recovery and CO2 sequestration. Result shows that the injected gas mixture displaces CH4 through competitive sorption and accelerates the transport of CH4 within the coal seam. The consistency between the modelling and field results verifies the feasibility and fidelity of the THM model for effective simulation key processes in GM-ECBM. Permeability evolution is strongly influenced by the combined effects of CH4 desorption induced matrix shrinkage, CO2/N2 adsorption induced matrix swelling, thermal strains, and compaction induced by changes in effective stress. During ECBM, reservoir permeability first increases due to pressure depletion and CH4 desorption, then dramatically decreases due to matrix swelling activated by the arrival of the CO2/N2 mixture. CH4 pressure decreases rapidly at early time due to displacement by the injected gas mixture, and then deceases slowly in the later stage. The sweep of N2 accelerates CH4 desorption and subsequent transport, and hence promotes a decrease in reservoir temperatures distant from the injection well even prior to the arrival of CO2. CH4 production rate during GM-ECBM exhibits a decline-increase-decline trend and usually has an elevated but delayed CH4 production peak compared to primary recovery. A higher CO2 Langmuir strain constant reduces the critical CO2 composition in the injected mixture when reaching the threshold of well shut down. An improved balance between early threshold (N2)and large matrix swelling (CO2)can be achieved by injection beginning with low CO2 composition and following with a sequential increase of CO2 composition. In studied cases, the gas recovery ratio of the optimal variable-composition case reaches 68.4% compared to of 59.4% pure CO2 and 64.2% of optimal constant-composition cases, indicating a higher efficiency of variable-composition injection. Elsevier Ltd
英文关键词	CO2 sequestration; Enhanced CBM recovery; Injection of gas mixture; Mass and heat transfer; Thermo-hydro-mechanical coupling model (THM); Variable-composition
scopus关键词	Coal; Coal bed methane; Coal deposits; Desorption; Firedamp; Gas emissions; Gas mixtures; Heat transfer; Injection (oil wells); Metal recovery; Methane; Petroleum reservoir engineering; Strain; Two phase flow; CO2 sequestration; Competitive sorption; Enhanced coalbed methane recoveries; Mass and heat transfers; Permeability evolution; Reservoir permeability; Reservoir temperatures; Thermo-hydro-mechanical coupling; Carbon dioxide
来源期刊	Fuel
文献类型	期刊论文
条目标识符	http://gcip.llas.ac.cn/handle/2XKMVOVA/176330
作者单位	College of Mining, Liaoning Technical University, Fuxin, 123000, China; State Key Laboratory Cultivation Base for Gas Geology and Gas Control, Henan Polytechnic University, Jiaozuo, 454003, China; Energy and Mineral Engineering, G3 Center and EMS Energy Institute, Pennsylvania State University, University Park, PA, United States; School of Mechanical and Mining Engineering, The University of Queensland, St Lucia, QLD 4072, Australia; Center of Technology, Shanxi Lu'an Mining (Group)Limited Liability Company, Changzhi, 046299, China
推荐引用方式 GB/T 7714	Fan C.,Elsworth D.,Li S.,et al. Modelling and optimization of enhanced coalbed methane recovery using CO2/N2 mixtures[J],2019,253.
APA	Fan C..,Elsworth D..,Li S..,Chen Z..,Luo M..,...&Zhang H..(2019).Modelling and optimization of enhanced coalbed methane recovery using CO2/N2 mixtures.Fuel,253.
MLA	Fan C.,et al."Modelling and optimization of enhanced coalbed methane recovery using CO2/N2 mixtures".Fuel 253(2019).