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工程力学  2015 

单相水流阶段煤层气井裂隙水运移的临界裂隙尺寸数学模型

DOI: 10.6052/j.issn.1000-4750.2013.10.0936, PP. 250-256

Keywords: 煤层气,数学模型,临界力学条件,临界裂隙尺寸,水运移平衡,单相流

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Abstract:

查明煤层气井排采的单相水流阶段裂隙水运移的裂隙临界尺寸大小,能为煤层气井的压力传播研究提供理论依据。根据煤储层孔裂隙结构特征,构建了煤储层地质概念模型;基于弹塑性力学理论,构建了单相水流阶段煤储层裂隙中水运移的力学平衡方程;结合有效应力原理和损伤理论分析了裂隙周围的应力分配与损伤演化,建立了一种适用于不同储层条件的单相流阶段水运移的煤储层裂隙临界尺寸的数学模型。晋城寺河矿煤储层条件下的计算结果表明:原始状态下煤储层水运移的临界尺寸为0.1μm,所得结果与其他学者实验室测试结果基本相符。同时还得出:随着排采过程中水的产出,水运移的煤储层裂隙的临界尺寸有增大的趋势,但变化幅度较小,仍在0.1μm左右。所建模型能较准确预测不同条件下煤储层单相水流阶段水运移的煤储层裂隙临界尺寸及排采过程中临界尺寸的变化规律。

 References

[1]  李兴丽, 杨洪伟, 王培春, 等. 利用测井解释渗透率获取拟毛管压力曲线的方法及其应用[J]. 中国海上油气, 2011, 23(5): 322―325. LI Xingli, Yang Hongwei, Wang Peichun, et al. A method to obtain pseudo-capillary pressure curves by using log-interpreted permeability and its application [J]. China Offshore Oil and Gas, 2011, 23(5): 322―325. (in Chinese)
[2]  Thomeer J H M. Introduction of a pore geometrical factor defined by the capillary pressure curve [J]. Journal Petroleum Technology, 1960, 12(3): 73―77.
[3]  Swanson B F. A simple correlation between permeability and mercury capillary pressure [J]. Journal Petroleum Technology, 1981, 33(12): 2498―2504.
[4]  Hawkins J M, Luffeel D L, Harris T G. Capillary pressure model predicts distance to gas/water, oil/water contact [J]. Oil and Gas Journal, 1993, 91(3): 39―43.
[5]  刘堂晏, 肖立志, 傅容珊, 等. 球管孔隙模型的核磁共振(NMR)弛豫特征及应用[J]. 地球物理学报, 2004, 47(4): 663―671. Liu Tangyan, Xiao Lizhi, Fu Rongshan, et al. Applications and Characterization of NMR Relation Derived from Sphere-Capillary Model [J]. Chinese Journal of Geophysics, 2004, 47(4): 663―671. (in Chinese)
[6]  Dunn K J, LaTorraca G A, Warner J L, et al. Onthe calculation and interpretation of NMR relaxa-tion time distributions [ R]. SPE28367, 1994: 45―54.
[7]  George R. Coates, Li Zhixiao. NMR Logging Principles & Applications [M]. Texas: Gulf Publishing Company, 1999: 7―11.
[8]  Yao Yanbin, Liu Dameng. Comparison of low-field NMR and mercury intrusion porosimetry in characterizing pore size distributions of coals [J]. Fuel, 2012, 95(5): 152―158.
[9]  赵毅, 胡斌, 张路崎, 等. 基于核磁共振和压汞实验的储层束缚水饱和度计算方法[J]. 科技导报, 2010, 28(11): 64―68. Zhao Yi, Hu Bin, Zhang Luqi, et al. Calculation of Reservoir Irreducible Water Saturation Based on NMR Experiment and Mercury Penetration Experiment [J]. Science and Technology Review, 2010, 28(11): 64―68. (in Chinese)
[10]  鲜德清, 傅少庆, 谢然红. 核磁共振测井束缚水模型研究[J]. 核电子学与探测技术, 2007, 27(3): 578―582. Xian Deqing, Fu Shaoqing, Xie Ranhong. Study on NMR logging bulk volume of irreducible water model [J]. Nuclear Electronics &Detection Technology, 2007, 27(3): 578―582. (in Chinese)
[11]  王晓畅, 范宜仁, 邓少贵, 等. 基于离心试验数据确定束缚水饱和度[J]. 中国石油大学学报(自然科学版), 2009, 33(3): 76―80. Wang Xiaochang, Fan Yiren, Deng Shaogui, et al. Irreducible water saturation determination based on centrifugal test data [J]. Journal of China University of Petroleum, 2009, 33(3): 76―80. (in Chinese)
[12]  孙军昌, 杨正明, 唐立根, 等. 致密气藏束缚水分布规律及含气饱和度研究[J]. 深圳大学学报理工版, 2011, 28(5): 377―384. Sun Junchang, Yang Zhengming, Tang Ligen, et al. Study on distribution law of irreducible water and gas saturation of tight sandstone gas reservoir [J]. Journal of Shenzhen University Science and Technology Edition, 2011, 28(5): 377―384. (in Chinese)
[13]  Gao Shusheng, Ye Liyou, Xiong Wei, et al. Nuclear magnetic resonance measurements of original water saturation and mobile water saturation in low permeability sandstone gas [J]. Chinese Physics Letters, 2010, 27(2): 1―2.
[14]  李克非, 马明军, 王晓梅. 水泥基材料裂隙水流动规律的实验研究[J]. 工程力学, 2010, 27(11): 229―234. Li Kefei, Ma Mingjun, Wang Xiaomei. Experimental study on water flow behavior through fracture surfaces of cement-based materials [J]. Engineering Mechanics, 2010, 27(11): 229―234. (in Chinese)
[15]  陈有亮, 邵伟, 周有成. 水饱和混凝土单轴压缩弹塑性损伤本构模型[J]. 工程力学, 2011, 28(11): 59―64. Chen Youliang, Shao Wei, Zhou Youcheng. Elastoplastic damage constitutive model of water- saturated concrete under uniaxial compression [J]. Engineering Mechanics, 2011, 28(11): 59―64. (in Chinese)
[16]  傅雪海, 秦勇, 韦重韬, 等. 煤层气地质学[M]. 徐州: 中国矿业大学出版社, 2007: 34―41. Fu Xuehai, Qin Yong, Wei Zhongtao, et al. Coalbed methane geology [M]. Xuzhou: China University of Mining and Technology Press, 2007: 34―41. (in Chinese)
[17]  刘佑荣, 唐辉明. 岩体力学[M]. 武汉: 中国地质大学出版社, 1999: 60―68. Liu Yourong, Tang Huiming. Rock mechanics [M]. Wuhan: China University of Geosciences Press, 1999: 60―68. (in Chinese)
[18]  徐芝纶. 弹性力学[M]. 北京: 高等教育出版社, 1978: 112―115. Xu Zhilun. Elastic mechanics [M]. Beijing: Higher Education Press, 1978: 112―115. (in Chinese)
[19]  Terzaghi K. Die Berechnung der Durchlaeassigkeitsziffer desTones AuS dem Verlauf der Hydrodynamoschen Spannun-gserscheinungen, Sitzungsber [J]. Akad Wiss Wien, 1923, 132(2A): 125―138.
[20]  倪小明, 苏现波, 张小东. 煤层气开发地质学[M]. 北京: 化学工业出版社, 2010: 112―115. Ni Xiaoming, Su Xianbo, Zhang Xiaodong. Coal bed methane development geology [M]. Beijing: Chemical Industry Press, 2010: 112―115. (in Chinese)
[21]  姚艳斌, 刘大猛, 蔡益栋, 等. 基于NMR和 X-CT 的煤的孔裂隙精细定量表征[J]. 中国科学: 地球科学, 2010, 40(11): 1598―1607. Yao Yanbin, Liu Dameng, Cai Yidong, et al. Advanced characterization of pores and fractures in coals by nuclear magnetic resonance and X-ray computed tomography [J]. Chinese Science: Earth Science, 2010, 40(11): 1598―1607. (in Chinese)

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