研究成果

(1)Zhang, S.; Jia, B.; Zhao, J.; Pu, H. A Diffuse Layer Model for Hydrocarbon Mass Transfer between Pores and Organic Matter for Supercritical CO2 Injection and Sequestration in Shale. Chemical Engineering Journal 2021,406,126746. (SCI收录)

(2)Zhang, S.; Sang, Q.; Dong, M. Experimental Study of Pressure Sensitivity in Shale Rocks: Effects of Pore Shape and Gas Slippage. Journal of Natural Gas Science and Engineering 2021, 89, 103885. (SCI收录)

(3)Zhang,S.; Li, Y.; Pu, H. Studies of the storage and transport of water and oil in organic-rich shale using vacuum imbibition method. Fuel 2020, 266,117096. (SCI收录)

(4)Zhang, S.; Pu, H.; Zhao, J. Experimental and numerical studies of spontaneous imbibition with different boundary conditions: case studies of Middle Bakken and Berea cores. Energy Fuels 2019, 33, 5135-5146. (SCI收录)

(5)Zhou, Y.; Wu, X.; Zhong, X.;Zhang, S.; Pu, H.; Zhao, J. Development of silicon quantum dots based nano-fluid for enhanced oil recovery in tight Bakken cores. Fuel 2020,277,118203. (SCI收录)

(6)Zhou, Y.; Wu, X.; Zhong, X.; Reagen, S.;Zhang, S, Sun, W., Pu, H., Zhao, J. Polymer nanoparticles based nano-fluid for enhanced oil recovery at harsh formation conditions. Fuel 2020, 267,117251. (SCI收录)

(7)Sang, Q.;Zhang, S.; Li, Y.; Dong, M.; Bryant.; S. Determination of organic and inorganic hydrocarbon saturations and effective porosities in shale using vacuum-imbibition method. International Journal of Coal Geology 2018, 200, 123-134. (SCI收录)

(8)Yang, Z.; Dong, M.;Zhang, S.; Gong, H.; Li, Y.; Long, F. A method for determining transverse permeability of tight reservoir cores by radial pressure pulse decay measurement. Journal of Geophysical Research: Solid Earth 2016, 121, 10. (SCI收录)

(9)Sang, Q.; Li, Y.; Zhu, C.;Zhang, S.; Dong, M. Experimental investigation of shale gas production with different pressure depletion schemes. Fuel 2016, 186, 293-304. (SCI收录)

(10)Yang, Z.; Sang, Q.; Dong, M.;Zhang, S.; Li, Y.; Gong, H. A modifiedpressure-pulse decay method for determining permeabilities of tight reservoir cores. Journal of Natural Gas Science and Engineering 2015, 27, 236-246. (SCI收录)

(11)Zhang, S.; Li, C.; Pu, H.; Ling, K.; Sun, R.; Zhao, J. ExperimentalStudy of Surfactant-Assisted Oil Recovery in the Middle Bakken Cores. SPE Liquids-Rich Basins Conference - North America, 7-8 November 2019, Odessa, Texas.

(12)Li, C.; Pu, H.;Zhang, S.; Zhao, J. Effect of Nanoparticles and Surfactants on Oil/Water Interfacial Tension: A Coarse-Grained Molecular Dynamics Simulation Study. Unconventional Resources Technology Conference, 22-24 July 2019, Denver, Colorado.

(13)桑茜,张少杰,朱超凡,董明哲,李亚军.陆相页岩油储层可动流体的核磁共振研究.中国科技论文2017,09,978-983.

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(1)Zhang, S.; Jia, B.; Zhao, J.; Pu, H. A Diffuse Layer Model for Hydrocarbon Mass Transfer between Pores and Organic Matter for Supercritical CO2 Injection and Sequestration in Shale. Chemical Engineering Journal 2021,406,126746. (SCI收录)

(2)Zhang, S.; Sang, Q.; Dong, M. Experimental Study of Pressure Sensitivity in Shale Rocks: Effects of Pore Shape and Gas Slippage. Journal of Natural Gas Science and Engineering 2021, 89, 103885. (SCI收录)

(3)Zhang,S.; Li, Y.; Pu, H. Studies of the storage and transport of water and oil in organic-rich shale using vacuum imbibition method. Fuel 2020, 266,117096. (SCI收录)

(4)Zhang, S.; Pu, H.; Zhao, J. Experimental and numerical studies of spontaneous imbibition with different boundary conditions: case studies of Middle Bakken and Berea cores. Energy Fuels 2019, 33, 5135-5146. (SCI收录)

(5)Zhou, Y.; Wu, X.; Zhong, X.;Zhang, S.; Pu, H.; Zhao, J. Development of silicon quantum dots based nano-fluid for enhanced oil recovery in tight Bakken cores. Fuel 2020,277,118203. (SCI收录)

(6)Zhou, Y.; Wu, X.; Zhong, X.; Reagen, S.;Zhang, S, Sun, W., Pu, H., Zhao, J. Polymer nanoparticles based nano-fluid for enhanced oil recovery at harsh formation conditions. Fuel 2020, 267,117251. (SCI收录)

(7)Sang, Q.;Zhang, S.; Li, Y.; Dong, M.; Bryant.; S. Determination of organic and inorganic hydrocarbon saturations and effective porosities in shale using vacuum-imbibition method. International Journal of Coal Geology 2018, 200, 123-134. (SCI收录)

(8)Yang, Z.; Dong, M.;Zhang, S.; Gong, H.; Li, Y.; Long, F. A method for determining transverse permeability of tight reservoir cores by radial pressure pulse decay measurement. Journal of Geophysical Research: Solid Earth 2016, 121, 10. (SCI收录)

(9)Sang, Q.; Li, Y.; Zhu, C.;Zhang, S.; Dong, M. Experimental investigation of shale gas production with different pressure depletion schemes. Fuel 2016, 186, 293-304. (SCI收录)

(10)Yang, Z.; Sang, Q.; Dong, M.;Zhang, S.; Li, Y.; Gong, H. A modifiedpressure-pulse decay method for determining permeabilities of tight reservoir cores. Journal of Natural Gas Science and Engineering 2015, 27, 236-246. (SCI收录)

(11)Zhang, S.; Li, C.; Pu, H.; Ling, K.; Sun, R.; Zhao, J. ExperimentalStudy of Surfactant-Assisted Oil Recovery in the Middle Bakken Cores. SPE Liquids-Rich Basins Conference - North America, 7-8 November 2019, Odessa, Texas.

(12)Li, C.; Pu, H.;Zhang, S.; Zhao, J. Effect of Nanoparticles and Surfactants on Oil/Water Interfacial Tension: A Coarse-Grained Molecular Dynamics Simulation Study. Unconventional Resources Technology Conference, 22-24 July 2019, Denver, Colorado.

(13)桑茜,张少杰,朱超凡,董明哲,李亚军.陆相页岩油储层可动流体的核磁共振研究.中国科技论文2017,09,978-983.



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