致密砂岩储层束缚水饱和度影响因素:以鄂尔多斯盆地临兴地区为例#br#

Journal of Jilin University(Earth Science Edition) ›› 2022, Vol. 52 ›› Issue (1): 68-.

Previous Articles Next Articles

Influencing Factors of Irreducible Water Saturation in Tight Sandstone Reservoirs:A Case Study of Linxing Area in Ordos Basin#br#

１．Jiangsu Mineral Resources and Geological Design and Research Institute,Xuzhou ２２１００６,Jiangsu,China
２．Key Laboratory of CBM Resource and Reservoir Formation Process,Ministry of Education,Xuzhou ２２１００８,Jiangsu,China
３．College of Resources and Environment,Henan Polytechnic University,Jiaozuo４５４０００,Henan,China

Received:2021-01-16 Online:2022-01-27 Published:2022-03-01
Supported by:
Supported by the National Science and Technology Major Project of China(２０１６ZX０５０６６０１０４),the National Natural
Science Foundation of China(４２００２１９３) and the Key Social Development Project of Xuzhou Science and Technology
Bureau(KC２１１４７)

Abstract

Abstract:

With the tight sandstone gas exploration and development, to study the influencing factors of tight sandstone irreducible water saturationbecomesimportant, as it can effectively guide reservoir description, evaluation, and productivity prediction. As an example of the tight sandstone reservoir in Linxing area in Ordos basin, the influencing factors of irreducible water saturation in tight sandstone were analyzed by casting thin section, X-ray diffraction, nuclear magnetic resonance, high pressure mercury injection, gas-water phase permeability, and scanning electron microscope experiments.The results show that the irreducible water saturation of tight sandstone in the study area is 34.77% - 83.78%, withanaverage of 63.86%, and the T_2cutoff is 3.86 - 65.60 ms withan average of 20.96 ms.The irreducible water saturation of tight sandstone is affected by physical properties, wettability, sensitivity, clay mineral type, mass fraction, and particle size in reservoirs. The smaller the tight sandstone size is, the higher the clay minerals content, and the stronger the rock hydrophilicity; The greaterthe specific surface area and water film thickness of the rock, the higher the capillary and membrane irreducible water. Water sensitivity and salt sensitivity are the main factors causing the damage of permeability. Residual intergranular pores, dissolution intergranular pores, dissolution within grains, intercrystalline pores and micro-fractures are developed in the research area. The types and forms of clay minerals filled in the pores are different, resulting in the complex pore structure of tight sandstone, strong micro-heterogeneity, and largeirregular changes in water saturation.

Key words: Ordosbasin, Linxingarea, lightsandstone, irreduciblewater, wettability, sensitivity

CLC Number:

TE１２２．２３

WuMeng１, ２, QinYong２, ShenJian２, SongDangyu３, WangXiaoqing３, ZhangGuchun１, LiGuozhang２, ZhuShifei１. Influencing Factors of Irreducible Water Saturation in Tight Sandstone Reservoirs:A Case Study of Linxing Area in Ordos Basin#br#[J].Journal of Jilin University(Earth Science Edition), 2022, 52(1): 68-.

References

Related Articles 11

[1]	Wu Meng, Qin Yong, Wang Xiaoqing, Li Guozhang, Zhu Chao, Zhu Shifei. Fluid Mobility and Its Influencing Factors of Tight Sandstone Reservoirs in China [J]. Journal of Jilin University(Earth Science Edition), 2021, 51(1): 35-51.
[2]	Wang Yuxia, Zhou Lifa, Jiao Zunsheng, Shang Qinghua, Huang Shengwang. Sensitivity Evaluation of Tight Sandstone Reservoir in Yanchang Formation in Shanbei Area, Ordos Basin [J]. Journal of Jilin University(Earth Science Edition), 2018, 48(4): 981-990.
[3]	Yang Jianping, Liu Zhibin, Yu Xiaolin, Tao Zhengwu, Xu Peng, Li Zhiqiang. Mechanism of Permeability Stress Sensitivity Based on Random Pore Network Simulation [J]. Journal of Jilin University(Earth Science Edition), 2017, 47(2): 626-632.
[4]	Jiang Qifeng, Rong Mianshui, Peng Yanju. Quantitative Analysis of Dynamic Shear Modulus Ratio's Effect on Response Spectra [J]. Journal of Jilin University(Earth Science Edition), 2015, 45(3): 876-885.
[5]	Zheng Fei, Shi Xiaoqing, Wu Jichun, Zhao Liang, Chen Yang. Global Parametric Sensitivity Analysis of Numerical Simulation for CO₂ Geological Sequestration in Saline Aquifers: A Case Study of Yancheng Formation in Subei Basin [J]. Journal of Jilin University(Earth Science Edition), 2014, 44(1): 310-318.
[6]	Wang Hongde，Gao Youlong，Xue Xingqiao，Jin Xiaohao，Wang Gang. Optimal Placement of Monitoring Points at Typical Landslide [J]. Journal of Jilin University(Earth Science Edition), 2013, 43(3): 858-866.
[7]	Luo Jiannan, Lu Wenxi, Kang Zhu, Song Jing，Zhang Yibo. Global Sensitivity for Surfactant Enhanced Aquifer Remediation Process [J]. Journal of Jilin University(Earth Science Edition), 2013, 43(2): 558-0563.
[8]	LIU Hai-fei, LIU Jian-xin, GUO Rong-wen, DENG Xiao-kang, RUAN Bai-yao. Efficient Inversion of 3D IP Data for Continuous Model with Complex Geometry [J]. J4, 2011, 41(4): 1212-1218.
[9]	YIN Xiong-rui, ZHANG Guang-xin, YANG Fan, XU Bin. Distributed Hydrological Modeling in Semi-Arid Region in Northeast China: A Case Study in the Taoer River Basin [J]. J4, 2011, 41(1): 137-144.
[10]	CHEN Xue-lian,WANG Rui-jia. Investigating Depth of Mode Waves in the Borehole Surrounded by Transversely Isotropic Elastic Formation [J]. J4, 2008, 38(3): 502-0507.
[11]	TANG Jie, ZHAO Feng-qin, LI Zhao-yang, WANG Chen-ye. Evaluation of Sensitivity to Alkali-saline Land Supported by GIS [J]. J4, 2006, 36(05): 841-746.

Metrics

Viewed

Full text

Abstract

Cited

Shared

Discussed

Comments

Recommended 10

[1]	LI Bing-cheng. Preliminary Studies on Holocene Climatic In Fuping,Shaanxi Province[J]. J4, 2005, 35(03): 291 -0295 .
[2]	HE Zhong-hua，YANG De-ming，WANG Tian-wu，ZHENG Chang-qing. SHRIMP U[CD*2]Pb Dating of Zircons from Two-Mica Granite in Baga Area in Gangdise Belt[J]. J4, 2005, 35(03): 302 -0307 .
[3]	KUANG Li-xiong,GUO Jian-hua, MEI Lian-fu, TONG Xiao-lan, YANG Li. Study on the Upheaval of the Bogeda Mountain Block from Angle of Oil and Gas Exploration[J]. J4, 2005, 35(03): 346 -0350 .
[4]	LI Zhao-yang, TANG Jie, SUN Ping-an, LIN Nian-feng. Fractal Research on Dynamic Change of Land Resources in Southwest of Songnen Plain[J]. J4, 2006, 36(02): 250 -0258 .
[5]	LIU Yan-ling，NIE Lei，LIU Yong-ping. Analysis on the Asymmetrically Loaded Characteristics of the Mountain-Adjacent Tunnel[J]. J4, 2006, 36(02): 240 -0244 .
[6]	CUI Jian，LIN Nian-feng，TANG Jie，JIANG Ling-ling，CAI Yu. The Dynamic Change and Trend Forecast of Land Use in the Lower Huolin River Basin[J]. J4, 2006, 36(02): 259 -0264 .
[7]	ZHANG Feng-jun, LI Qing, MA Jiu-tong, YU Guang-ju. Experimental Study on Treatment of Furfural Wastewater with Membrane Distillation[J]. J4, 2006, 36(02): 270 -0273 .
[8]	ZHANG Feng-xu, MENG Ling-shun, ZHANG Feng-qin, YANG Shu, ZHAO Cheng-min. Basic Characteristics of Cosine Transform Spectrum of Gravity Potential[J]. J4, 2006, 36(02): 274 -0278 .
[9]	Xing Xue-wen, Hu Guang-dao. The Application of Fuzzy Logic Method to Gold Deposit Prediction in Qinling-Songpan Area[J]. J4, 2006, 36(02): 298 -0304 .
[10]	JING Jian-en, WEI Wen-bo,MEI Zhong-wu. Discussion on Development Regularities of Karst Cave on Top of the Ordovician of Tahe Oilfield and Relation in OilGas[J]. J4, 2005, 35(05): 622 -625 .