姓名： 石军太   
职称： 副教授   
职务：    
教育与事情履历：
    2002-2006 凯时（北京）石油工程学院 石油工程专业 本科
    2006-2012 凯时（北京）石油工程学院 油气田开发工程专业 硕博连读研究生
    2009-2010 美国德州大学奥斯汀分校 会见学者
    2012-现在 凯时（北京）西席
    
    
小我私家主页：
电子邮箱： shijuntai@cup.edu.cn　　　　 
联系电话： 13810052583　　
    
所在系所： 油气田开发工程系    
研究偏向： 气藏工程，主要包括凝析气藏、低渗气藏、煤层气藏、页岩气藏等重大气藏和非通例气藏相态特征、渗流机理、产能展望及开发手艺的研究。  
教学情形：本科全英文课程《Gas Reservoir Engineering》，本科《气藏工程》，研究生课程《煤层气开采理论与手艺》，研究生课程《高等气藏工程》  

论文著作：
    [1] Shi, J., Wang, S., Xu, X., Sun, Z., Li, J., Meng, Y. 2018. A semi-analytical productivity model for a vertically fractured well with arbitrary fracture length under complex boundary conditions, SPE Journal, SPE-191368-PA.

[2] Shi, J., Chang, Y., Wu, S., Xiong, X., Liu, C., Feng, K. Development of material balance equations for coalbed methane reservoirs considering dewatering process, gas solubility, pore compressibility and matrix shrinkage. Int. J. Coal. Geol. 2018, 195, 200-216.

[3] Shi, J., Wang, S., Zhang, H., Sun, Z., Hou, C., Chang, Y., Xu, Z. A novel method for formation evaluation of undersaturated coalbed methane reservoirs using dewatering data. Fuel, 2018, 229, 44-52.

[4] Shi, J., Sun, Z., Li, X. Analytical Models for Liquid Loading in Multifractured Horizontal Gas Wells, SPE Journal, 2016, 21(2): 471-487.

[5] Shi, J., Li, X., Cheng, S.; Zhou, J., Gao, B. A new approach for evaluating well deliverability in ultra-thick gas reservoirs, Journal of Petroleum Science and Engineering, 2015, 133: 869-880.

[6] Shi, J.; Huang, L., Li, X., Sepehrnoori, K. Production forecasting of gas condensate well considering fluid phase behavior in the reservoir and wellbore, Journal of Natural Gas Science and Engineering, 2015, 24: 279-290.

[7] Shi, J.; Li, X.; Li, Q.; Wang, F.; Sepehrnoori, K. Gas permeability model considering rock deformation and slippage in low permeability water-bearing gas reservoirs, Journal of Petroleum Science and Engineering, 2014, 120: 61-72.

[8] Shi, J., Li, X., Zhou, J., Li, Q., Wu K. How to Evaluate and Predict Deliverability Change of Gas Condensate Wells?, Petroleum Science and Technology, 2014, 32(4): 442-449.

[9] Shi, J.; Li, X.; Zhou, J.; Li, Q.; Wu, K., Deliverability Prediction of Gas Condensate Wells Based on Statistics, Petroleum Science and Technology, 2013, 31(13): 1353-1360.

[10] Shi, J.; Varavei, A.; Huh, C.; Delshad, M.; Sepehrnoori, K., Li, X. Transport Model Implementation and Simulation of Microgel Processes for Conformance and Mobility Control Purposes, Energy & Fuels, 2011,25(11): 5063-5075.

[11] Shi, J.; Varavei, A.; Huh, C.; Delshad, M.; Sepehrnoori, K.; Li, X. Viscosity Model of Preformed Microgels for Conformance and Mobility Control, Energy & Fuels, 2011, 25(11): 5033-5037.

[12] Sun Z., Shi J., Wu K., Li X. Gas Flow Behavior through Inorganic Nanopores in Shale Considering Confinement Effect and Moisture Content. Industrial & Engineering Chemistry Research, 2018, 57, 3430?3440.

[13] Sun Z., Shi J., Wang K., Miao Y., Zhang T., Feng D., Sun F., Wang S., Han S., Li X.  The gas-water two phase flow behavior in low-permeability CBM reservoirs with multiple mechanisms coupling. Journal of Natural Gas Science and Engineering, 2018, 52, 82-93.

[14] Sun Z., Shi J., Zhang T., Wu K., Miao Y., Feng D., Sun F., Han S., Wang S., Hou C., Li X. The modified gas-water two phase version flowing material balance equation for low permeability CBM reservoirs. Journal of Petroleum Science and Engineering, 2018, 165, 726-735.

[15] Sun Z., Shi J., Zhang T., Wu K., Feng D., Sun F., Huang L., Hou C., Li X. A fully-coupled semi-analytical model for effective gas/water phase permeability during coal-bed methane production. Fuel, 2018, 223, 44-52.

[16] Sun Z., Shi J., Wu K., Miao Y., Zhang T., Feng D., Xiao Z., Wu N., Lin W., Li X. A fully-coupled gas-water two phase productivity equations for low-permeability CBM wells. Journal of Petroleum Science and Engineering, 2018, 166, 611-620.

[17] Sun Z., Shi J., Wu K., Xu B., Zhang T., Chang Y., Li X.  Transport capacity of gas confined in nanoporous ultra-tight gas reservoirs with real gas effect and water storage mechanisms coupling. International Journal of Heat and Mass Transfer, 2018, 126, 1007-1018.

[18] Sun Z., Shi J., Wu K., Zhang T., Feng D., Li X. Effect of pressure propagation behavior on production performance: Implication for advancing low-permeability coalbed methane recovery. SPE Journal. 2018, SPE-194021-PA.

[19] Wang S., Shi J., Wang K., Sun Z., Miao Y., Hou C. Apparent permeability model for gas transport in shale reservoirs with nano-scale porous media. Journal of Natural Gas Science and Engineering, 2018,55: 508-519.

[20] Wang S. Shi J., Wang K., Sun Z., Zhang T. New coupled apparent permeability models for gas transport in inorganic nanopores of shale reservoirs considering multiple effects. Energy & Fuels , 2017 , 31 (12):  13545–13557.

[21] Shi J.; Li Q.; Zhang L.; Sun X.; Sun Z.; Liu S., An abnormality of productivity indicative curves of multi-layer gas wells: Reason analysis and correction method. Natural Gas Industry B, 2018,   10.1016/j.ngib.2018.03.004

[22] Shi, J.; Li, S.; Sun, F.; Li, J.; Li, X.; Zang, J.; Li, Y.; Zhang, F., A New Approach to Evaluate Stimulation Effectiveness in Unconventional Reservoirs, the International Petroleum Technology Conference, Kuala Lumpur, 2014.12.10-2014.12.12.

[23] Shi, J.; He, X.; Sun, F.; Yu, W.; Li, X., A New Analytical Model for Liquid Loading in Shale Gas Reservoirs, SPE/AAPG/SEG Unconventional Resources Technology Conference, Denver, 2014.8.25-2014.8.27.

[24] Shi, J.; Li X.; Xu H.; Li Y.; Ren W.; Wang H.; Xu Z.; Wang Z., Desorption And Transport Mechanisms Of Gas Through Coal Matrix Pores And Gas Production Forecasting, SPE Unconventional Resources Conference and Exhibition-Asia Pacific held in Brisbane, Australia, 11–13 November 2013., 2013.11.11-2013.11.13.

[25] Shi, J.; Zhang, L.; Li Y.; Yu W.; He X.; Liu N.; Li X.; Wang T., Diffusion and Flow Mechanisms of Shale Gas through Matrix Pores and Gas Production Forecasting, SPE Unconventional Resources Conference-Canada held in Calgary, Alberta, Canada, 5–7 November 2013, 2013.11.5-2013.11.7.

[26] 石军太, 李相方, 徐兵祥, 杜希瑶, 李彦尊, 温声明, 张冬玲. 煤层气解吸扩散渗流模子研究希望[J]. 中国科学：物理学 力学 天文学, 43(12): 1548-1557, 2013.
 
在研项目：
  1、国家自然科学基金团结基金项目-石油化工团结基金：煤层气在基质孔隙中解吸转达机理及产能展望（U1262113），课题认真人，2013-2015.

2、国家自然科学基金青年科学基金：页岩气扩散渗流机理及产气纪律研究（51504269），课题认真人，2016-2018.

3、十三五国家科技重大专项子课题：煤层气定量化排采设计要领研究（2016ZX05042），子课题认真人，2016-2020.

4、十三五国家科技重大专项 “重大结构丛式井钻完井要害手艺”子课题“重大结构井丛式井井网及产能设计研究”（2017ZX05009-003），主研职员，2017-2020.

5、国家自然科学基金委重大项目：页岩油气多标准渗流特征与开采理论（51490654），主研职员，2015-2019.

6、凯时（北京）实验教学刷新项目：气藏工程双语教学刷新与实践研究（21G16070），项目认真人，2014年；

7、凯时（北京）全英语课程建设项目：气藏工程全英语教学（25G15007），项目认真人，2015年；

8、凯时（北京）教育教学课本刷新项目：适合本科研究生分级教学的自然气工程课本编写，项目认真人，2016年。

 
科研教学奖励：
[1] 中国石油和化学工业团结会科技前进一等奖《凝析气藏多相渗流机理及有用开发方法》，排名第二，2014

[2] 2017年国家自然科学基金石油工程领域在研项目交流及学科生长趋势钻研会优异报告奖获得者，2017

[3] 凯时（北京）青年拔尖人才，2012

[4] 凯时（北京）优异博士学位论文，2013

[5] 第四届天下石油工程设计大赛单项组天下三等奖获得者指导西席，2014

[6] 第五届天下石油工程设计大赛单项组校级二等奖获得者指导西席，2015

[7] 第六届研究生学术论坛总论坛特等奖获得者指导西席， 2016

  
社会与学术兼职：

1、担当《油气田开发工程》二级学科学术带动人助理，2015年至今；

2、担当任第一届中国石油学会青年岁情委员会委员，2017年至今；

3、担当《石油化工高等学校学报》特约编委， 2016年至今；

4、担当天下渗流力学学术委员会青年委员，2016年至今。

5、SPE会员。

6、为中国石油学会会员。

7、为Energy Conversion Management、Fuel、Energy & Fuel、Journal of Petroleum Science and Engineering、International Journal of Computational Methods、Petroleum Science Technology、Journal of Geophysics Engineering、Petroleum Science等高水平国际期刊审稿人。