研究领域

非通例油气岩石物理

科研项目

[1] 富有机质页岩波速各向异性的实验研究，2014.01-2016.12，认真人，国家自然科学基金青年基金项目。


[2] 致密砂岩裂痕密度、逾渗阈值与超声波速关系的实验研究,2013.07-2015.06.认真人，中国石油科技立异基金项目。


[3]非通例油气富集机制与地球物理甜点识别—非通例油气岩石物理实验与模子研究，2016.1-2019.12，科研主干，国家自然科学基金重点项目-石油团结化工团结基金。

Publications

[1] X Q. Wang, S. Wu, H K. Ge, J B. Wang. Experimental study on the anisotropy of shale with wave velocity and permeability. 53nd U.S. Rock Mechanism Symposium. 2019 (Conference paper)，EI


[2] Xiaoqiong Wang, Shan Wu, Hongkui Ge, Yueyue Sun and Qian Zhang. The complexity of the fracture network in failure rock under cyclic loading and its characteristics in acoustic emission monitoring，Journal of Geophysics and Engineering，2018,15（5）：2091-2103. SCI


[3] Xiaoqiong Wang, Hongkui Ge and Peng Han, A new model for fracability evaluation with consideration of natural cracks，Journal of Geophysics and Engineering，2018,15（4）：1492-1505. SCI


[4] Xiaoqiong Wang, Hongkui Ge, Daobing Wang, Jianbo Wang and Hao Chen, A comprehensive method for the fracability evaluation of shale combined with brittleness and stress sensitivity，Journal of Geophysics and Engineering，2017, 14（6）：1420-1429. SCI


[5] Xiaoqiong Wang, Hongkui Ge, Jianbo Wang, Daobing Wang, Hao Chen, Evaluation of the micro-cracks in shale from the stress sensitivity of ultrasonic velocities，Rock Mechanics and Rock Engineering，2016, 49（12）:4929-4934. SCI.


[6] 王小琼，葛洪魁，陈浪潮, 使用周期振荡法测试超低渗储层的渗透率, 岩土力学, 2015,36:237-244. EI


[7] 王小琼，葛洪魁，申颍浩, 富有机质页岩波速各向异性研究希望，特种油气藏，2013,20(6):1-5. 焦点


[8] Xiao-Qiong Wang, AlexandreSchubnel, Jér?meFortin, YvesGuéguen, and Hong-KuiGe, Physical properties and brittle strength of thermally cracked granite under confinement, Journal of Geophysical Research: Solid earth, 2013, 118,1-14. SCI


[9] X.-Q. Wang, A. Schubnel, J. Fortin, E. C. David, Y. Guéguen, and H.-K. Ge, High Vp/Vs ratio: Saturated cracks or anisotropy effects?, Geophysical Research Letters, 2012, 39, L11307, doi:10.1029/2012GL051742. SCI