»Research Interests Multiscale Simulation in Porous Media, Pore Scale Simulation in Porous Media »Research Projects 1 National Natural Science Foundation of China: Gas transport mechanisems in Micro/Nanoscale porous media, No.: 51504276, Study duration: 2016.01-2018.12, in charge, 1/9 • China Postdoctoral Science special Foundation: Pore Scale Simulation and the upscaling investigation of the multiphase flow in shale gas reservoirs, No.: 2015T80762, Study duration: 2015.01-2016.12, in charge, 1/1 • China Postdoctoral Science Foundation: Multi-scale Simulation of Gas Transport in Shale Gas Reservoirs, No.: 2014M551989, Study duration: 2014.01-2015.12, in charge, 1/1 • Shandong Province Natural Science Foundation: Numerical Simulation of gas transport in the shale matrix with nano pores, No.: ZR2014EEP018, Study duration: 2014.07-2016.07, in charge, 1/6
»Paper and Publications [1] Hai Sun, Jun Yao, Sun-hua Gao, Dongyan Fan, Chenchen Wang, Zhixue Sun. Numerical study of CO2 Enhanced Natural Gas Recovery and sequestration in Shale Gas Reservoirs[J]. International Journal of Greenhouse Gas Control, 2013, 19��406-419. [2] Hai Sun, Jun Yao, Dong-yan Fan, Chenchen Wang, Zhixue Sun. Gas Transport Mode Criteria in Ultra-tight Porous Media[J]. International Journal of Heat and Mass Transfer��2015��83��192-199. [3] Hai Sun, Jun Yao*, Yingchang Cao, et al.. Characterization of gas transport behaviors in shale gas and tight gas reservoirs by digital rock analysis [J]. International Journal of Heat and Mass Transfer��2017��104��227-239. [4] Yao Jun, Sun Hai, Fan Dong-yan. Numerical Simulation of Gas Transport Mechanisms in Tight Shale Gas Reservoir[J]. Petroleum Science, 2013,10: 528-537. [5] Wenhui Song, Jun Yao*, Yang Li, Hai Sun*, Lei Zhang, Yaongfei Yang, Jianlin Zhao. Apparent gas permeability in an organic-rich shale reservoir[J]. Fuel, 2016, 181: 973-984. [6] Wenjuan Zhang��Jun Yao��Hai Sun��Electrokinetic coupling in single phase flow in periodically changed capillary with a very small throat size[J].International Journal of Heat and Mass Transfer��2015��84��722-728. [7] Fan Dongyan��Yao Jun��Sun Hai* ��Zeng Hui��Song Wenhui��A Composite Model of Hydraulic Fractured Horizontal Well with Stimulated Reservoir Volume in tight Oil&Gas Reservoir[J]. Journal of Natural Gas Science and Engineering, 2015, 24: 115-123. [8] Min Zhang, Jun Yao, Hai Sun, Jianlin Zhao, Dongyan Fan, Zhaoqin Huang, Yueying Wang. Triple-continuum modeling of shale gas reservoirs considering the effect of kerogen[J]. Journal of Natural Gas Science and Engineering, 2015, 24: 252-263. [9] Wang Wei, Yao Jun, Sun Hai, Song Wenhui. Influence of gas transport mechanisms on the productivity of multi-stage fractured horizontal wells in shale gas reservoirs[J]. Petroleum Science, 2015: 1-10. [10] Fan Dongyan, Yao Jun, Sun Hai, et al. Inflow performance of multiple-fractured horizontal well based on discrete-fracture model[J]. Petroleum Science and Technology, 2013,31(5) 492-499. [11] Zhu Guang-pu, Yao Jun, Sun Hai, Zhang min, Xie Meijie, Sun Zhixue, Lu Tao. The numerical simulation of thermal recovery based on hydraulic fracture heating technology in shale gas reservoir[J]. Journal of Natural Gas Science and Engineering, 2016, 28: 305-316. [12] Wang Chenchen��Yao Jun��Wu Keliu��Ren Guoxuan��Sun Hai��Yang Yongfei��Gao Ying��Chen Zhangxin. Organic and Inorganic Pore Structure Analysis in Shale Matrix with Superposition Method. in Unconventional Resources Technology Conference. Denver, Colorado, USA.2014[C]. Society of Petroleum Engineers. [13] Hui Zeng, Dongyan Fan, Jun Yao, Hai Sun, Pressure and Rate Transient Analysis of Composite Shale Gas Reservoirs Considering Multiple Mechanisms, Journal of Natural Gas Science and Engineering, 2015, 27: 914-925. [14] Wenjuan Zhang��Jun Yao��Ying Gao, Qi Zhang, Hai Sun. Analysis of electrokinetic coupling of fluid flow in porous media using a 3-D pore network. Journal of Petroleum Science and Engineering.
|