姓名: 石軍太
職稱: 副教授
職務:
教育與工作經歷:
2002-2006 中國石油大學(北京)石油工程學院 石油工程專業(yè) 本科
2006-2012 中國石油大學(北京)石油工程學院 油氣田開發(fā)工程專業(yè) 碩博連讀研究生
2009-2010 美國德州大學奧斯汀分校 訪問學者
2012-現在 中國石油大學(北京)教師
個人主頁:
電子郵箱: [email protected]
聯系電話: 13810052583
所在系所: 油氣田開發(fā)工程系
研究方向: 氣藏工程,,主要包括凝析氣藏,、低滲氣藏、煤層氣藏,、頁巖氣藏等復雜氣藏和非常規(guī)氣藏相態(tài)特征,、滲流機理、產能預測及開發(fā)技術的研究,。
教學情況:本科全英文課程《Gas Reservoir Engineering》,,本科《氣藏工程》,研究生課程《煤層氣開采理論與技術》,,研究生課程《高等氣藏工程》
論文著作:
[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] 石軍太, 李相方, 徐兵祥, 杜?,?/span>, 李彥尊, 溫聲明, 張冬玲. 煤層氣解吸擴散滲流模型研究進展[J]. 中國科學:物理學 力學 天文學, 43(12): 1548-1557, 2013.
在研項目:
1、國家自然科學基金聯合基金項目-石油化工聯合基金:煤層氣在基質孔隙中解吸傳遞機理及產能預測(U1262113),,課題負責人,,2013-2015.
2、國家自然科學基金青年科學基金:頁巖氣擴散滲流機理及產氣規(guī)律研究(51504269),,課題負責人,,2016-2018.
3、十三五國家科技重大專項子課題:煤層氣定量化排采設計方法研究(2016ZX05042),,子課題負責人,,2016-2020.
4、十三五國家科技重大專項 “復雜結構叢式井鉆完井關鍵技術”子課題“復雜結構井叢式井井網及產能設計研究”(2017ZX05009-003),,主研人員,,2017-2020.
5、國家自然科學基金委重大項目:頁巖油氣多尺度滲流特征與開采理論(51490654),,主研人員,,2015-2019.
6、中國石油大學(北京)實驗教學改革項目:氣藏工程雙語教學改革與實踐研究(21G16070),,項目負責人,,2014年,;
7、中國石油大學(北京)全英語課程建設項目:氣藏工程全英語教學(25G15007),,項目負責人,,2015年;
8,、中國石油大學(北京)教育教學教材改革項目:適合本科研究生分級教學的天然氣工程講義編寫,,項目負責人,2016年,。
科研教學獎勵:
[1] 中國石油和化學工業(yè)聯合會科技進步一等獎《凝析氣藏多相滲流機理及有效開發(fā)方式》,,排名第二,2014
[2] 2017年國家自然科學基金石油工程領域在研項目交流及學科發(fā)展趨勢研討會優(yōu)秀報告獎獲得者,,2017
[3] 中國石油大學(北京)青年拔尖人才,,2012
[4] 中國石油大學(北京)優(yōu)秀博士學位論文,2013
[5] 第四屆全國石油工程設計大賽單項組全國三等獎獲得者指導教師,,2014
[6] 第五屆全國石油工程設計大賽單項組校級二等獎獲得者指導教師,,2015
[7] 第六屆研究生學術論壇總論壇特等獎獲得者指導教師, 2016
社會與學術兼職:
1,、擔任《油氣田開發(fā)工程》二級學科學術帶頭人助理,,2015年至今;
2,、擔任任第一屆中國石油學會青年工作委員會委員,2017年至今,;
3,、擔任《石油化工高等學校學報》特約編委, 2016年至今,;
4,、擔任全國滲流力學學術委員會青年委員,2016年至今,。
5,、SPE會員。
6,、為中國石油學會會員,。
7、為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等高水平國際期刊審稿人,。
