2014年以后成果
[1]Ying Wang, Fanbao Meng, et al., Effective stress law for the permeability and deformation of four porous limestones. AGU Fall meeting, 2017.12.11-15, New Orleans, LU, United States.
[2]Ying Wang, Jiahao Ji, et al., Experimental study of CO2 effect on shale mechanical properties in the processes of complete strain-stress and post-failure tests. AGU Fall meeting, 2017.12.11-15, New Orleans, LU, United States.
[3]Ying Wang, Guozhi Li, et al., Experimental study on CO2 enhancing shale gas in triaxial compression fracturing process. International Forum on CO2 Geological Storage Geomechanics, 2016.5.18-19, Wuhan, China.
2014年以前成果
[1]Ying Wang, Guozhi Li, Min Li, and Jing Zhang, The applicability of different fluid media to measure effective stress coefficient for rock permeability[J], Journal of Chemistry
[2]Wang, Y., C. Zhang, N. Wei, M. Oostrom, T. W. Wietsma, X. Li, and A. Bonneville, Experimental study of crossover from capillary to viscous fingering for supercritical CO2-water displacement in a homogeneous pore network[J], Environmental Science & Technology, 47(1), 2013, pp212-218.(SCI一區收錄,影響因子5.481/2014)
[3]Wei, N., X. Li, Y. Wang, R. T. Dahowski, C. L. Davidson, G. S. Bromhal, A preliminary basin-scale evaluation framework of site suitability for onshore aquifer-based CO2 storage in China[J], International Journal of Greenhouse Gas Control, (12), 2013, pp231-246.(SCI收錄,影響因子3.944/2014)
[4]Oostrom, M., N. Wei, Y. Wang, C. Zhang, and A. Bonneville, Impure CO2 geological storage: Preliminary laboratory experiments at ambient conditions[C], American Geophysical Union, Fall Meeting 2011, abstract #H51G-1288, San Francisco, U.S..(會議展板,美國地球物理聯盟)
[5]Bonneville, A., C. Zhang, M. Oostrom, T. Scheibe, N. Wei, and Y. Wang, Physical models of pore-scale trapping of CO2: applications to Ordos basin, China[J], IFP Energies Nouvelles, 2011, France.(會議報告,法國能源與環境研究中心)
[6]Wei, N., X. Li, Y. Wang, Numerical study on the field-scale aquifer storage of CO2 containing N2[C], GHGT-11, 2013, Koyto, Japan. (大會展板,國際溫室氣體減排大會)
[7]Li, X., N. Wei, Y. Wang, Systematic search or early CCS deployment opportunities in China[R], prepared for the Energy Foundation of the United States Department of Energy, 2011, pp54.(政府科技報告)
[8]Wang, Y., N. Wei, M. Oostrom, et al., Dry-out phenomena on initial experimental study fo microscale supercritical CO2 displacement[C], The 10th Euro-Conference on Rock Physics and Rock Mechanics, 2014, Aussois, France(大會報告,歐洲巖石物理與力學大會)
[9]Wang, Y., N. Wei, M. Oostrom, et al., Experimental study of microscale supercritical CO2 displacement in a pore network: Drying effects[J], (EST正在投稿)
[10] 李小春,王穎,魏寧,變容壓力脈沖滲透系數測量方法研究[J],巖石力學與工程學報,2008,27(12):2 482-2 487.(EI收錄)
[11] 王穎,李小春,魏寧,變容壓力脈沖法滲透系數測量技術測量范圍的實驗驗證[J],巖石力學與工程學報,2010,29(S1).(EI收錄)
[12]王穎,李小春,魏寧,變容壓力脈沖滲透系數測量方法的誤差分析[J],巖石力學與工程學報,2010,29(S1).(EI收錄)
[13]李小春,王穎,魏寧,實用新型名稱:基于流體綜合壓縮性可變得變容水量容器,國家知識產權局專利局,專利號:200720087599.2.(主筆)
[14]王穎,李小春,魏寧,實用新型名稱:一種基于變容的材料滲透系數測量儀器,國家知識產權局專利局,專利號:200720300514.4. (主筆)
[15]王穎,李小春,魏寧,發明名稱:一種變容容器,國家知識產權局專利局,專利號:200810197124.8. (主筆)
[16]王穎,李小春,魏寧,發明名稱:基于標定滲透實驗的標準試件,國家知識產權局專利局,專利號:200910061539.7. (主筆)
[17]王穎,李小春,魏寧,發明名稱:一種多孔介質標準試件的制備方法,國家知識產權局專利局,專利號:200910061540.X. (主筆)
[18]李小春,王穎,魏寧,發明名稱:一種多孔介質孔隙體積變化量的測量方法及裝置,國家知識產權局專利局,專利號:201010557354.8. (主筆)
[19]李小春,魏寧,王穎,王燕,發明名稱:一種多孔介質材料突破壓的測量方法及裝置,國家知識產權局專利局,專利號:201110057185.6(主筆) |
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