Classification of tight sandstone reservoirs based on the contribution of intergranular pores:a case study of Xujiaweizi fault depression

doi:10.7623/syxb201710003

Acta Petrolei Sinica ›› 2017, Vol. 38 ›› Issue (10): 1123-1134.DOI: 10.7623/syxb201710003

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Classification of tight sandstone reservoirs based on the contribution of intergranular pores:a case study of Xujiaweizi fault depression

Xiao Dianshi¹, Lu Shuangfang¹, Jiang Weiwei², Huang Wenbiao¹, Zhang Luchuan¹, Li Bo¹

1. Research Institute of Unconventional Oil & Gas and Renewable Energy, China University of Petroleum, Shandong Qingdao 266580, China;
2. Changqing Division, CNPC Well Logging Company Limited, Shaanxi Xi'an 710201, China

Received:2017-04-16 Revised:2017-07-05 Online:2017-10-25 Published:2017-11-02

基于粒间孔贡献量的致密砂岩储层分类——以徐家围子断陷为例

肖佃师¹, 卢双舫¹, 姜微微², 黄文彪¹, 张鲁川¹, 李勃¹

1. 中国石油大学非常规油气与新能源研究院山东青岛 266580;
2. 中国石油集团测井有限公司长庆事业部陕西西安 710201

通讯作者: 卢双舫,男,1962年6月生,1983年获江汉石油学院学士学位,1993年获石油勘探开发科学研究院博士学位,现为中国石油大学(华东)非常规油气与新能源研究院院长、教授、博士生导师,山东省"致密(页岩)油气勘探开发"协同创新中心主任,主要从事油气地质学和地球化学以及非常规油气地质学等方面的研究工作.Email:lushuangfang@qq.com
作者简介:肖佃师,男,1981年10月生,2003年获大庆石油学院学士学位,2013年获东北石油大学博士学位,现为中国石油大学(华东)讲师,主要从事复杂储层岩石物理评价方面的研究工作.Email:xiaods1024@163.com
基金资助:
国家自然科学基金项目（No.41602141）和国家重大科技专项（2016ZX05061）资助。

Abstract

Abstract:

As the most important type of pores in the grain-supported clastic reservoirs, intergranular pores can control the reservoir quality by their relative contents and mutual connectivity, especially for tight sandstones with various pore-throat structures. The intergranular pores exhibit the connective pattern of "large pores connected by narrow throats", which is significantly different from the intragranular pores with "tree-like pore network". The rate-controlled porosimetry can be used to effectively distinguish the distribution range of intergranular-dominant pores. On this basis, the contribution of intergranular pores to porosity is quantitatively assessed by nuclear magnetic resonance, while that to permeability is calculated by the joint percolation theory and throat distribution from rate-controlled porosimetry. The contribution of intergranular pores to porosity in tight sandstones varies from 9 % to 64 %, showing a significantly positive correlation with that to permeability varying from 0 to 87 % . The higher the contribution of intergranular pores to permeability is, the greater the fluid mobility in intergranular pores will be. The contribution of intergranular pores to porosity and permeability is obviously affected by the combination of the mechanical compaction and clay-dominated cementation. Based on the contribution of intergranular-pore dominant space to permeability (K_in)as a key parameter, tight sandstone reservoirs are classified into the intergranular pore-dominant type (K_in>50 % ), mixed type (10 % < K_in < 50 % )and intragranular pore-dominant type (K_in<10 % ). This classification takes into account the contribution of the space dominated by intergranular pores with high sensitivity to the process of diagenesis to the overall rock reserving and porous flow capability, fluid mobility and other aspects, effectively compensating the limitations in the single use of pore-throat or pore size parameters for classifying tight reservoirs with various pore-throat structures.

Key words: intergranular pores, porous flow theory, tight sandstone gas, reservoir classification, nuclear magnetic resonance, rate-controlled porosimetry

摘要：

粒间孔是颗粒支撑碎屑岩储层最重要的一类孔隙，其相对含量及连通关系共同决定储层品质，尤其对于孔喉结构多样的致密砂岩。粒间孔具有"大孔被细喉沟通"的连通关系，明显不同于"类树形孔隙网络"的粒内孔，利用恒速压汞孔隙体进汞可有效区分粒间孔主导空间分布范围，在此基础上，通过核磁共振定量评价粒间孔对孔隙度的贡献，联合渗流理论及恒速压汞的喉道分布定量评价其对渗透率的贡献。致密砂岩粒间孔主导空间对孔隙度贡献范围为9 % ~64 % ，其对渗透率的贡献变化范围为0~87 % ，两者呈明显正相关；粒间孔对渗透率的贡献量越大，其内流体可动性越好；粒间孔对孔渗的贡献量明显受机械压实和以黏土为主的胶结作用共同影响。选取粒间孔主导空间对渗透率的贡献量（K_in）为关键参数，将致密砂岩储层划分为粒间孔主导型（K_in≥50 % ）、混合型（10 % < K_in < 50 % ）和粒内孔主导型（K_in≤10 % ）3类，该分类综合考虑了对成岩作用敏感的粒间孔主导空间在整个岩石储集和渗流能力及流体可动性等方面的贡献，有效弥补了单纯使用喉道或孔隙大小参数划分具有多样孔喉结构致密储层的不足。

关键词: 粒间孔, 渗流理论, 致密砂岩气, 储层分类, 核磁共振, 恒速压汞

CLC Number:

TE122.14

Xiao Dianshi, Lu Shuangfang, Jiang Weiwei, Huang Wenbiao, Zhang Luchuan, Li Bo. Classification of tight sandstone reservoirs based on the contribution of intergranular pores:a case study of Xujiaweizi fault depression[J]. Acta Petrolei Sinica, 2017, 38(10): 1123-1134.

肖佃师, 卢双舫, 姜微微, 黄文彪, 张鲁川, 李勃. 基于粒间孔贡献量的致密砂岩储层分类——以徐家围子断陷为例[J]. 石油学报, 2017, 38(10): 1123-1134.

References

[1] 李建忠,郑民,陈晓明,等.非常规油气内涵辨析、源-储组合类型及中国非常规油气发展潜力[J].石油学报,2015,36(5):521-532.
LI Jianzhong,ZHENG Min,CHEN Xiaoming,et al.Connotation analyses,source-reservoir assemblage types and development potential of unconventional hydrocarbon in China[J].Acta Petrolei Sinica,2015,36(5):521-532.
[2] NELSON P H.Pore-throat sizes in sandstones,tight sandstones,and shales[J].AAPG Bulletin,2009,93(3):329-340.
[3] 叶素娟,李嵘,杨克明,等.川西坳陷叠覆型致密砂岩气区储层特征及定量预测评价[J].石油学报,2015,36(12):1484-1494.
YE Sujuan,LI Rong,YANG Keming,et al.Characteristics and quantitative prediction of tight sand gas reservoirs in superimposed tight sandstone gas-bearing area,western Sichuan depression[J].Acta Petrolei Sinica,2015,36(12):1484-1494.
[4] 康毅力,罗平亚.中国致密砂岩气藏勘探开发关键工程技术现状与展望[J].石油勘探与开发,2007,34(2):239-245.
KANG Yili,LUO Pingya.Current status and prospect of key techniques for exploration and production of tight sandstone gas reservoirs in China[J].Petroleum Exploration and Development,2007,34(2):239-245.
[5] 孙建孟,韩志磊,秦瑞宝,等.致密气储层可压裂性测井评价方法[J].石油学报,2015,36(1):74-80.
SUN Jianmeng,HAN Zhilei,QIN Ruibao,et al.Log evaluation method of fracturing performance in tight gas reservoir[J].Acta Petrolei Sinica,2015,36(1):74-80.
[6] 王伟明,卢双舫,陈旋,等.致密砂岩气资源分级评价新方法—以吐哈盆地下侏罗统水西沟群为例 [J].石油勘探与开发,2015,42(1):60-67.
WANG Weiming,LU Shuangfang,CHEN Xuan,et al.A new method for grading and assessing the potential of tight sand gas resources:a case study of the Lower Jurassic Shuixigou Group in the Turpan-Hami Basin[J].Petroleum Exploration and Development,2015,42(1):60-67.
[7] 张安达,王成,乔睿.致密砂岩储层物性下限确定新方法及系统分类[J].岩性油气藏,2014,26(5):5-8.
ZHANG Anda,WANG Cheng,QIAO Rui.A new method for determining physical property lower limit of tight sandstone reservoir and reservoir system classification[J].Lithologic Reservoirs,2014,26(5):5-8.
[8] 林潼,魏红兴,谢亚妮.以喉道为参数的致密砂岩气储层评价方法——以库车坳陷迪北地区致密砂岩气为例[J].沉积学报,2016,34(5):983-990.
LIN Tong,WEI Hongxing,XIE Yani.Using throat parameter to assess tight sandstone gas reservoir:a case study of Dibei tight sandstone gas in the east of Kuqa Depression[J].Acta Sedimentologica Sinica,2016,34(5):983-990.
[9] 李海燕,岳大力,张秀娟.苏里格气田低渗透储层微观孔隙结构特征及其分类评价方法[J].地学前缘,2012,19(2):133-140.
LI Haiyan,YUE Dali,ZHANG Xiujuan.Characteristics of pore structure and reservoir evaluation of low permeability reservoir in Sulige gas field[J].Earth Science Frontiers,2012,19(2):133-140.
[10] 吴浩,刘锐娥,纪友亮,等.典型致密砂岩气储层孔隙结构分类及其意义——以鄂尔多斯盆地盒8段为例[J].天然气地球科学,2016,27(5):835-843.
WU Hao,LIU Rui'e,JI Youliang,et al.Classification of pore structures in typical tight sandstone gas reservoir and its significance:a case study of the He8 Member of Upper Palaeozoic Shihezi Formation in Ordos Basin,China[J].Natural Gas Geoscience,2016,27(5):835-843.
[11] 白松涛,程道解,万金彬,等.砂岩岩石核磁共振T₂谱定量表征[J].石油学报,2016,37(3):382-391.
BAI Songtao,CHENG Daojie,WAN Jinbin,et al.Quantitative characterization of sandstone NMR T₂ spectrum[J].Acta Petrolei Sinica,2016,37(3):382-391.
[12] 代全齐,罗群,张晨,等.基于核磁共振新参数的致密油砂岩储层孔隙结构特征—以鄂尔多斯盆地延长组7段为例[J].石油学报,2016,37(7):887-897.
DAI Quanqi,LUO Qun,ZHANG Chen,et al.Pore structure characteristics of tight-oil sandstone reservoir based on a new parameter measured by NMR experiment:a case study of seventh Member in Yanchang Formation,Ordos Basin[J].Acta Petrolei Sinica,2016,37(7):887-897.
[13] ZHANG Pengfei,LU Shuangfang,LI Junqian,et al.Characterization of shale pore system:a case study of Paleogene Xin'gouzui Formation in the Jianghan basin,China[J].Marine and Petroleum Geology,2017,79:321-334.
[14] SAKHAEE-POUR A,BRYANT S L.Effect of pore structure on the producibility of tight-gas sandstones[J].AAPG Bulletin,2014,98(4):663-694.
[15] LIU Hongping,ZHAO Yanchao,LUO Yang,et al.Diagenetic facies controls on pore structure and rock electrical parameters in tight gas sandstone[J].Journal of Geophysics and Engineering,2015,12(4):587-600.
[16] SOEDER D J.Reservoir properties and pore structure of tight gas sands[J].AAPG Bulletin,1984,68(4):530.
[17] ZOU Caineng,ZHU Rukai,LIU Keyu,et al.Tight gas sandstone reservoirs in China:characteristics and recognition criteria[J].Journal of Petroleum Science and Engineering,2012,88-89:82-91.
[18] XIAO Dianshi,JIANG Shu,THUL D,et al.Combining rate-controlled porosimetry and NMR to probe full-range pore throat structures and their evolution features in tight sands:a case study in the Songliao Basin,China[J].Marine and Petroleum Geology,2017,83:111-123.
[19] 朱如凯,吴松涛,苏玲,等.中国致密储层孔隙结构表征需注意的问题及未来发展方向[J].石油学报,2016,37(11):1323-1336.
ZHU Rukai,WU Songtao,SU Ling,et al.Problems and future works of porous texture characterization of tight reservoirs in China[J].Acta Petrolei Sinica,2016,37(11):1323-1336.
[20] 赵泽辉,徐淑娟,姜晓华,等.松辽盆地深层地质结构及致密砂砾岩气勘探[J].石油勘探与开发,2016,43(1):12-23.
ZHAO Zehui,XU Shujuan,JIANG Xiaohua,et al.Deep strata geologic structure and tight conglomerate gas exploration in Songliao Basin,East China[J].Petroleum Exploration and Development,2016,43(1):12-23.
[21] 马世忠,甘立琴,聂春林,等.徐家围子地区登娄库组沉积相分析[J].地质科技情报,2013,32(4):1-7.
MA Shizhong,GAN Liqin,NIE Chunlin,et al.Sedimentary facies analysis of Denglouku Formation in Xujiaweizi Area[J].Geological Science and Technology Information,2013,32(4):1-7.
[22] ZHAO Huawei,NING Zhengfu,WANG Qing,et al.Petrophysical characterization of tight oil reservoirs using pressure-controlled porosimetry combined with rate-controlled porosimetry[J].Fuel,2015,154:233-242.
[23] YAO Yanbin,LIU Dameng.Comparison of low-field NMR and mercury intrusion porosimetry in characterizing pore size distributions of coals[J].Fuel,2012,95:152-158.
[24] GAULER C.Studying vugular rocks by-constant-rate mercury injection[R].SPE 3612,1971.
[25] YUAN H H,SWANSON B F.Resolving pore-space characteristics by rate-controlled porosimetry[J].SPE Formation Evaluation,1989,4(1):17-24.
[26] 操应长,葸克来,朱如凯,等.松辽盆地南部泉四段扶余油层致密砂岩储层微观孔喉结构特征[J].中国石油大学学报:自然科学版,2015,39(5):7-17.
CAO Yingchang,XI Kelai,ZHU Rukai,et al.Microscopic pore throat characteristics of tight sandstone reservoirs in Fuyu Layer of the fourth member of Quantou Formation in southern Songliao Basin[J].Journal of China University of Petroleum:Edition of Natural Science,2015,39(5):7-17.
[27] 高树生,胡志明,刘华勋,等.不同岩性储层的微观孔隙特征[J].石油学报,2016,37(2):248-256.
GAO Shusheng,HU Zhiming,LIU Huaxun,et al.Microscopic pore characteristics of different lithological reservoirs[J].Acta Petrolei Sinica,2016,37(2):248-256.
[28] 闫建平,温丹妮,李尊芝,等.基于核磁共振测井的低渗透砂岩孔隙结构定量评价方法——以东营凹陷南斜坡沙四段为例[J].地球物理学报,2016,59(4):1543-1552.
YAN Jianping,WEN Danni,LI Zunzhi,et al.The quantitative evaluation method of low permeable sandstone pore structure based on nuclear magnetic resonance (NMR) logging[J].Chinese Journal of Geophysics,2016,59(4):1543-1552.
[29] 朱华银,徐轩,安来志,等.致密气藏孔隙水赋存状态与流动性实验[J].石油学报,2016,37(2):230-236.
ZHU Huayin,XU Xuan,AN Laizhi,et al.An experimental on occurrence and mobility of pore water in tight gas reservoirs[J].Acta Petrolei Sinica,2016,37(2):230-236.
[30] DAIGLE H,JOHNSON A.Combining mercury intrusion and nuclear magnetic resonance measurements using percolation theory[J].Transport in Porous Media,2016,111(3):669-679.
[31] 刘天定,赵太平,李高仁,等.利用核磁共振评价致密砂岩储层孔径分布的改进方法[J].测井技术,2012,36(2):119-123.
LIU Tianding,ZHAO Taiping,LI Gaoren,et al.An improved method to evaluate pore size distribution of tight sandstone reservoir using NMR[J].Well Logging Technology,2012,36(2):119-123.
[32] 盛军,孙卫,赵婷,等.致密砂岩气藏微观孔隙结构参数定量评价——以苏里格气田东南区为例[J].西北大学学报:自然科学版,2015,45(6):913-924.
SHENG Jun,SUN Wei,ZHAO Ting,et al.Quantitative evaluation of microscopic pore structure parameters of tight sandstone gas reservoir:a case the southeast area of Sulige gas field[J].Journal of Northwest University:Natural Science Edition,2015,45(6):913-924.
[33] WASHBURN E W.The dynamics of capillary flow[J].Physical Review,1921,17:273-283.
[34] PURCELL W R.Capillary pressures-their measurement using mercury and the calculation of permeability therefrom[J].Journal of Petroleum Technology,1949,1(2):39-48.
[35] WILSON L,WILSON M J,GREEN J,et al.The influence of clay mineralogy on formation damage in north sea reservoir sandstones:a review with illustrative examples[J].Earth-Science Reviews,2014,134:70-80.
[36] 卢双舫,肖佃师,王民,等.徐家围子断陷沙河子组致密砂砾岩储层微观结构表征[R].大庆:大庆油田勘探开发研究院,2015.
LU Shuangfang,XIAO Dianshi,WANG Min,et al.The characteriztion of micro structure for tight conglomerate reservoirs of Shahezi Formation in Xujiaweizi Fault Depression[R].Daqing:Daqing Oilfield Exploration and Development Institute,2015.

Classification of tight sandstone reservoirs based on the contribution of intergranular pores:a case study of Xujiaweizi fault depression

基于粒间孔贡献量的致密砂岩储层分类——以徐家围子断陷为例

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