帮助 关于我们

返回检索结果

页岩中多元气体竞争吸附特征研究现状及展望
Characteristics of competitive adsorption of multicomponent gases on shales: Status and prospects

查看参考文献72篇

王星 1,2   田辉 1 *  
文摘 吸附气是页岩气的重要组成部分,页岩气吸附机理的研究及吸附量的计算是页岩气研究的重点内容。在某些地质条件下,页岩气组成复杂,不仅包含甲烷,还有一定量的乙烷等湿气以及氮气和二氧化碳等非烃气体,因此有必要针对页岩开展多元气体竞争吸附研究。本文在前人研究基础上,分析页岩中多元气体竞争吸附的机理,介绍扩展Langmuir方程、理想吸附溶液理论(IAST)和晶格密度泛函理论(Lattice DFT)等3种竞争吸附预测模型,探讨有机质含量、页岩组成、孔隙结构、成熟度、气体组成、含水率和压力等影响页岩中多元气体竞争吸附的因素,阐述页岩中多元气体竞争吸附的研究现状并指出其中存在的问题与难点,并对页岩中多元气体竞争吸附研究的发展趋势和需要解决的问题进行探讨。
其他语种文摘 Adsorbed gas is a major component of shale gas, therefore, it is important to determine the mechanism of gas adsorption in shales and their associated gas adsorption capacity when evaluating shale gas resources. Given that the composition of shale gas is quite complex in some geological conditions, the competitive adsorption of multicomponent gases in shales needs to be unambiguously illustrated. Based on related and currently available literature, the present study investigates the mechanism involved in multicomponent gas adsorption in shales and provides a brief introduction to three mathematical models used to illustrate competitive adsorption: the extended Langmuir model, the ideal adsorbed solution theory (IAST), and the lattice density functional theory (Lattice DFT). Controlling factors, such as TOC content, shale composition, pore structure, maturity, gas composition, moisture content, and pressure, which influence the competitive adsorption of multicomponent gases in shales are discussed. In summary, this study provides some new insights into multicomponent gas adsorption mechanisms in shales, suggests potential problems related to multicomponent gas adsorption, and outlines future work required in overmature shale gas exploration.
来源 地球化学 ,2018,47(3):229-239 【核心库】
DOI 10.19700/j.0379-1726.2018.03.001
关键词 竞争吸附 ; 页岩气 ; 特征 ; 模型 ; 展望
地址

1. 中国科学院广州地球化学研究所, 有机地球化学国家重点实验室, 广东, 广州, 510640  

2. 中国科学院大学, 北京, 100049

语种 中文
文献类型 综述型
ISSN 0379-1726
学科 地质学
基金 国家自然科学基金 ;  中国科学院战略性先导科技专项
文献收藏号 CSCD:6243615

参考文献 共 72 共4页

1.  贾承造. 中国非常规油气资源与勘探开发前景. 石油勘探与开发,2012,39(2):129-136 被引 611    
2.  张金川. 页岩气及其勘探研究意义. 现代地质,2008,22:640-646 被引 112    
3.  Curtis J B. Fractured shale-gas systems. AAPG Bull,2002,86:1921-1938 被引 1006    
4.  李新景. 北美裂缝性页岩气勘探开发的启示. 石油勘探与开发,2007,34(4):392-400 被引 272    
5.  Zhang T W. Effect of organic-matter type and thermal maturity on methane adsorption in shale-gas systems. Org Geochem,2012,47:120-131 被引 76    
6.  Chareonsuppanimit P. High-pressure adsorption of gases on shales: Measurements and modeling. Int J Coal Geol,2012,95:34-46 被引 42    
7.  Weniger P. High-pressure methane and carbon dioxide sorption on coal and shale samples from the Parana Basin, Brazil. Int J Coal Geol,2010,84:190-205 被引 23    
8.  Bhatia S K. Adsorption of binary hydrocarbon mixtures in carbon slit pores: A density functional theory study. Langmuir,1998,14:6231-6240 被引 1    
9.  Wang Y. Competitive sorption of methane/ethane mixtures on shale: Measurements and modeling. Ind Eng Chem Res,2015,54:12187-12195 被引 5    
10.  Ottiger S. Measuring and modeling the competitive adsorption of CO_2, CH_4, and N_2 on a dry coal. Langmuir,2008,24:9531-9540 被引 7    
11.  傅国旗. 天然气吸附存储实验研究Ⅰ.少量乙烷对活性炭存储能力的影响. 天然气化工,2000,25:12-14 被引 14    
12.  傅国旗. 天然气吸附存储实验研究Ⅱ.少量丙烷和丁烷对活性炭存储能力的影响. 天然气化工,2000,25(6):22-24 被引 10    
13.  Pini R. Prediction of competitive adsorption on coal by a lattice DFT model. Adsorption,2009,16:37-46 被引 3    
14.  杨宏民. 煤对气体吸附特征的研究现状及应用前景展望. 煤,2009,118(8):1-4 被引 3    
15.  王晓琦. 地层条件下页岩有机质孔隙内CO_2/CH_4竞争吸附的分子模拟. 石油勘探与开发,2016,43(5):1-8 被引 1    
16.  Fathi E. Multi-component gas transport and adsorption effects during CO_2 injection and enhanced shale gas recovery. Int J Coal Geol,2014,123:52-61 被引 13    
17.  Clarkson C. Binary gas adsorption/desorption isotherms: Effect of moisture and coal composition upon carbon dioxide selectivity over methane. Int J Coal Geol,2000,42:241-271 被引 76    
18.  唐书恒. 煤对二元气体等温吸附过程中的组分分馏效应. 科学通报,2005,50(增刊I):64-69 被引 4    
19.  陈安定. 氮气对海相地层油气保存的指示作用. 石油实验地质,2005,27(1):85-89 被引 26    
20.  Sun H Y. Molecular Insights into the Enhanced Shale Gas Recovery by Carbon Dioxide in Kerogen Slit Nanopores. J Phy Chem C,2017,121:10233-10241 被引 3    
引证文献 3

1 张臣 高压条件下页岩对CH_4、CO_2气体吸附特征及其在二元混合气体中应用: 以四川盆地焦石坝地区龙马溪组页岩为例 地球化学,2019,48(6):580-589
被引 3

2 张吉振 海陆过渡相煤系页岩孔隙结构特征及其对含气性的影响 地球化学,2021,50(5):478-491
被引 6

显示所有3篇文献

论文科学数据集
PlumX Metrics
相关文献

 作者相关
 关键词相关
 参考文献相关

版权所有 ©2008 中国科学院文献情报中心 制作维护:中国科学院文献情报中心
地址:北京中关村北四环西路33号 邮政编码:100190 联系电话:(010)82627496 E-mail:cscd@mail.las.ac.cn 京ICP备05002861号-4 | 京公网安备11010802043238号