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盛家平 教授

发布日期:2017-12-22 

盛家平,男,19624月出生,江苏丹阳人。美国德州理工大学终身教授,博士生导师。

 

教育经历:

1979.09~1983.07  中国石油大学(华东)  采油专业  学士学位

1990.01~1992.12  加拿大阿尔伯特大学    石油工程  硕士学位

1993.01~1996.12  加拿大阿尔伯特大学    石油工程  博士学位

 

工作经历

2011~至今  美国德克萨斯州理工大学  教授

2006~2010  法国道达尔公司 (TOTAL)  资深研究员,技术代表

2003~2006  美国贝克休斯公司              首席科学家,研发主管

1999~2003  壳牌公司                              资深油藏工程师

1997~1999  科威特国家石油公司          资深油藏工程师

1983~1990  北京石油勘探开发研究院    油藏工程师

 

联系方式:jamessheng98@gmail.com

 

学术兼职:

美国石油工程师协会会员。

 

代表性著作:

1.      Sheng, J.J. 2013. Enhanced Oil Recovery – Field Case Studies, editor, Elsevier.

2.      Sheng, J.J. 2011. Modern Chemical Enhanced Oil Recovery: Theory and Practice, Elsevier, Burlington, MA 01803, USA.

3.      Zhang, S. and Sheng, J.J. 2018. Effect of Water Imbibition on Fracture Generation in Mancos Shale under Isotropic and Anisotropic Stress Conditions, J. Geotech. Geoenviron. Eng., 144(2): 04017113, pp. 1-10.

4.      Sheng, J.J. 2017. What Type of Surfactants should Be Used to Enhance Spontaneous Imbibition in Shale and Tight Reservoirs? Journal of Petroleum Science and Engineering, 159, 635-643.

5.      Shen, Z. and Sheng, J.J. 2017. Experimental and numerical study of permeability reduction caused by asphaltene precipitation and deposition during CO2 huff and puff injection in Eagle Ford shale, Fuel, 211, 432-445.

6.      Wang, X. and Sheng, J.J. 2017. Understanding Oil and Gas Flow Mechanisms in Shale Reservoirs Using SLD–PR Transport Model, Transport in Porous Media, 119, 337-350. DOI 10.1007/s11242-017-0884-2

7.      Huang, S and Sheng, J.J. 2017. An innovative method to build a comprehensive kinetic model for air injection using TGA/DSC experiments, Fuel, 210, 98-106.

8.      Li, L. and Sheng, J.J. 2017. Nanopore confinement effects on phase behavior and capillary pressure in a Wolfcamp shale reservoir, Journal of the Taiwan Institute of Chemical Engineers, 78, 317–328.

9.      Li, L., Zhang, Y., and Sheng, J.J. 2017. Effect of the Injection Pressure on Enhancing Oil Recovery in Shale Cores during the CO2 Huff-n-Puff Process When It Is above and below the Minimum Miscibility Pressure. Energy & Fuels, 31, 3856?3867.

10.  Meng, X., Sheng, J.J., and Yu, Y. 2017. Experimental and Numerical Study on Enhanced Condensate Recovery by Huff-n-Puff Gas Injection in Shale Gas Condensate Reservoirs, SPE Reservoir Evaluation & Engineering, May, 471-477, SPE 183645-PA.

11.  Yu, Y., Li, L. and Sheng, J.J. 2017. A comparative experimental study of gas injection in shale plugs by flooding and huff-n-puff processes, Journal of Natural Gas Science and Engineering, 38, 195-202.

12.  Sharma, S. and Sheng, J.J. 2017. A comparative study of huff-n-puff gas and solvent injection in a shale gas condensate core, J. of Natural Gas Science and Engineering, 38, 549-565.

13.  Wang, X.-K. and Sheng, J.J. 2017. Effect of low-velocity non-Darcy flow on well production performance in shale and tight oil reservoirs, Fuel, 190, 41-46.

14.  Sheng, J.J. 2015. Preferred calculation formula and buoyancy effect on capillary number, Asia-Pacific Journal of Chemical Engineering, 10(3), 400-410, DOI: 10.1002/apj.1883.

15.  Morsy, S., Hetherington, C.J., and Sheng, J.J. 2015. Effect of low-concentration HCl on the mineralogy, physical, and mechanical properties, and recovery factors of some shales, Journal of Unconventional Oil and Gas Resources, 9, 94-102.

16.  Sheng, J.J. 2015. Enhanced oil recovery in shale reservoirs by gas injection, Journal of Natural Gas Science and Engineering22, 252-259 (invited review).

17.  Sheng, J.J. 2014. Critical Review of Low-Salinity Waterflooding, J. Pet. Sci. Eng. 120, 216-224.

18.  Sheng, J.J. 2014. A comprehensive review of alkaline–surfactant–polymer (ASP) flooding, Asia-Pacific Journal of Chemical Engineering, 9, 471-489, DOI: 10.1002/apj.1824

19.  Sheng, J.J. and Chen, K. 2014. Evaluation of the EOR Potential of Gas and Water Injection in Shale Oil Reservoirs, Journal of Unconventional Oil and Gas Resources, 5, 1–9.

20.  Sheng, J.J. 2013. Mobility Control Requirement in Multiphase Displacement Processes, Asia-Pacific Journal of Chemical Engineering, 8(5), 555–566.

21.  Sheng, J.J. 2013. Comparison of the Effects of Wettability Alteration and IFT Reduction on Oil recovery in Carbonate Reservoirs, Asia-Pacific Journal of Chemical Engineering, 8(1), 154–161.

22.  Sheng, J.J. 2010. Formulation of the Flow Problem in Anisotropic Porous Media Using Different Coordinate Transformations, J. Pet. Sci. Eng., 75(1-2), 203-208, December, doi:10.1016/j.petrol.2010.11.010

23.  Sheng, J.J. 2010. Optimum Phase Type and Optimum Salinity Profile in Surfactant Flooding, J. Pet. Sci. Eng., 75(1-2), 143-153; doi:10.1016/j.petrol.2010.11.005.

24.  Sheng, J.J. 2008. Analytical Steady-State Solution of Single-Probe Tests in a Horizontal Well and Its Application to Estimate Horizontal and Vertical Permeabilities, SPEREE, 11(3), June, 590-597; SPE 102659-PA.

25.  Sheng, J.J., Georgi, D.T., and Burge, J. 2006. Concept of Geometric Factor and Its application to Estimate Horizontal and Vertical Permeabilities, SPEREE, vol. 9, No. 6, December, 698-707; SPE 90226-PA.

26.  Sheng, J.J., Hayes, R.E., Maini, B.B. and Tortike, W.S. 1999. Modelling Foamy Oil Flow in Porous Media, Transport in Porous Media 35, No. 2 (May), 227-258.

发明专利:

1.      Sheng, J.J. and Georgi, D.: “Practical Methods to Estimate Horizontal and Vertical Permeabilities,” Patent No.: US 7,448,263 (Nov. 11, 2008). 11/625,699 filed on 01/22/2007

2.      Sheng, J.J. and Georgi, D.: “Determination of Correct Horizontal and Vertical Permeabilities in a Deviated Well,” Patent US 7,448,262 (Nov. 11, 2008). 11/203,316 filed on 08/12/2005.

3.      Sheng, J.J. and Georgi, D.: “Determining Horizontal and Vertical Permeabilities by Analyzing Two Pretests in a Horizontal Well,” Patent No.: US 7,231,818 B2 (June 19, 2007).

4.      Sheng, J.J. and Georgi, D.: “Determination of Correct Horizontal and Vertical Permeabilities in a Deviated Well,” Patent No.: US 7,181,960 B2 (Feb. 27, 2007).