ËÎÕ×½Ü
Ñо¿Ô±£¬²©µ¼¡¢Ë¶µ¼£¬¹ú¼Ò¼¶¸ßÌõÀíÇàÄêÈ˲ţ¬·ÇͨÀýÓÍÆø¿ÆѧÊÖÒÕÑо¿Ôº¸±Ôº³¤
°ì¹«ÊÒ£ºÖ÷Â¥A×ùA302
°ì¹«Êҵ绰£º010-89739187
E-mail£ºsongz@cup.edu.cn
СÎÒ˽¼Ò¼ò½é
ËÎÕ׽ܣ¬ÄУ¬²©Ê¿£¬Ñо¿Ô±£¬²©µ¼¡¢Ë¶µ¼£¬¹ú¼Ò¡°ÍòÈËÍýÏ롱ÇàÄê°Î¼âÈ˲ţ¬Ñ§Ð£ÓÅÒìÇàÄêѧÕߺÍÇàÄêÈ˲š°±¾ìä°à¡±Ê×ÆÚѧԱ£¨µ¼Ê¦£ºÀî¸ùÉúԺʿ£©£¬·ÇͨÀýÓÍÆø¿ÆѧÊÖÒÕÑо¿Ôº¸±Ôº³¤¡£2014Äê»ñµÃÖйúµØÖÊ´óѧ£¨±±¾©£©ÓÍÆøÌ↑·¢¹¤³Ìרҵ²©Ê¿Ñ§Î»¡£2012-2014ÄêÓÚÃÀ¹úÃÜËÕÀï¿Æ¼¼´óѧ¾ÙÐн»Á÷»á¼û¡£Ö÷ÒªÑо¿Æ«Ïò°üÀ¨£º·ÇͨÀýÓÍÆøÏà̬ÓëÌá¸ß²ÉÊÕÂÊ¡¢CO2ÇýÓÍÓëµØÖÊ·â´æ£¨CCUS£©¡¢¶à¿×½éÖʶàÏàÁ÷ÌåÁ÷¶¯¼ÍÂɵȡ£Ö÷³Ö¹ú¼Ò¼¶¡¢Ê¡²¿¼¶ÏîÄ¿8ÏÆäÖйú¼Ò×ÔÈ»¿Æѧ»ù½ðÏîÄ¿3Ïî¡¢¹ú¼Ò¸ß¶ËÍâ¹úר¼ÒÒý½øÍýÏëÏîÄ¿1Ïî¡¢¹ú¼ÒÖصãÑз¢ÍýÏëרÌâ1ÏÔÚChemical Engineering Journal¡¢Fuel¡¢Journal of Petroleum Science and Engineering¡¢Petroleum Science¡¢Ê¯ÓÍ¿±Ì½Ó뿪·¢ºÍʯÓÍѧ±¨µÈ¸ßˮƽÆÚ¿¯¼°SPE IORºÍURTeCµÈÐÐÒµ¶¥¼¶¾Û»á¹²½ÒÏþÂÛÎÄ80Óàƪ£¬ÆäÖÐÒÔµÚ1»òͨѶ×÷Õß½ÒÏþSCI/EIÊÕ¼ÂÛÎÄ40ƪ£¨JCRÒ»Çø17ƪ£©£»»ñÊÚȨ·¢Ã÷רÀû19¼þ£»ÈÙ»ñ½ÌÓý²¿¿Æ¼¼Ç°½øÒ»µÈ½±µÈÊ¡²¿¼¶¿Æ¼¼½±Àø7ÏÁ½ÏîÅÅÃûµÚ1£©ºÍËïÔ½ÆéÇàÄê¿Æ¼¼½±¡¢ÖйúʯÓͺͻ¯Ñ§¹¤ÒµÍŽá»áÇàÄê¿Æ¼¼Í»³öТ˳½±ºÍÌìÏÂÂÌÉ«¿óɽͻ³öТ˳СÎÒ˽¼Ò½±¡£ÏÖΪʯÓ͹¤³Ì½ÌÓý²¿ÖصãʵÑéÊÒ¸±Ö÷ÈΡ¢±±¾©ÄÜÔ´ÓëÇéÐÎѧ»áר¼ÒίԱ»á¸±Ö÷ÈΡ¢¹ú¼ÒÁì¾üÆÚ¿¯Petroleum Science¸±Ö÷±à¡¢Geofluids±àί¡¢¡¶Ê¯ÓÍ¿Æѧת´ï¡·Ö´ÐбàίµÈ¡£
Ñо¿Æ«Ïò
[1] ·ÇͨÀýÓÍÆøÏà̬ÓëÌá¸ß²ÉÊÕÂÊ
[2] ¶þÑõ»¯Ì¼ÇýÓÍÓëµØÖÊ·â´æ£¨CCUS£©
[3] ¶à¿×½éÖʶàÏàÁ÷ÌåÁ÷¶¯¼ÍÂÉ
½ÌÓýÅä¾°
2010.09-2014.07£¬ÖйúµØÖÊ´óѧ£¨±±¾©£©£¬²©Ê¿Ñо¿Éú
2012.09-2014.04£¬ÃÀ¹úÃÜËÕÀï¿Æ¼¼´óѧ£¬ÍŽá×÷Óý²©Ê¿Éú
2007.09-2010.07£¬¹«º£²Ê´¬£¨±±¾©£©£¬Ë¶Ê¿Ñо¿Éú
2003.09-2007.07£¬¹«º£²Ê´¬£¨»ª¶«£©£¬´óѧ±¾¿Æ
ÊÂÇéÂÄÀú
2021.07-£¬¹«º£²Ê´¬£¨±±¾©£©£¬Ñо¿Ô±
2021.08-2024.07£¬¹«º£²Ê´¬£¨±±¾©£©£¬Ñ§Ð£ÓÅÒìÇàÄêѧÕß
2016.06-2021.07£¬¹«º£²Ê´¬£¨±±¾©£©£¬¸±Ñо¿Ô±
2015.08-2018.07£¬¹«º£²Ê´¬£¨±±¾©£©£¬Ñ§Ð£ÇàÄê°Î¼âÈ˲Å
2014.07-2016.06£¬¹«º£²Ê´¬£¨±±¾©£©£¬ÖúÀíÑо¿Ô±
ÈÙ»ñ½±Àø
[1] 2020.12£¬ÖйúʯÓͺͻ¯¹¤×Ô¶¯»¯ÐÐÒµ¿Æ¼¼Ç°½øÒ»µÈ½±£¨ÅÅÃûµÚ1£©
[2] 2022.12£¬ÖйúʯÓͺͻ¯Ñ§¹¤ÒµÍŽá»á¿Æ¼¼Ç°½ø¶þµÈ½±£¨ÅÅÃûµÚ1£©
[3] 2023.09£¬ËïÔ½ÆéÄÜÔ´¿ÆѧÊÖÒÕ½±ÇàÄê¿Æ¼¼½±
[4] 2022.12£¬ÖйúʯÓͺͻ¯Ñ§¹¤ÒµÍŽá»áÇàÄê¿Æ¼¼Í»³öТ˳½±
[5] 2023.04£¬ÖйشåÂÌÉ«¿óɽ¹¤ÒµÍ¬ÃËÂÌÉ«¿óɽͻ³öТ˳СÎÒ˽¼Ò½±
[6] 2023.06£¬½ÌÓý²¿¸ßµÈѧУ¿ÆѧÑо¿ÓÅÒìЧ¹û½±¿Æ¼¼Ç°½øÒ»µÈ½±£¨ÅÅÃûµÚ10£©
[7] 2015.10£¬ÖйúʯÓͺͻ¯Ñ§¹¤ÒµÍŽá»á¿Æ¼¼Ç°½øÒ»µÈ½±£¨ÅÅÃûµÚ9£©
[8] 2023.05£¬ÇൺÊпƼ¼Ç°½ø¶þµÈ½±£¨ÅÅÃûµÚ5£©
[9] 2023.02£¬ÖйúʯÓͺͻ¯¹¤×Ô¶¯»¯ÐÐÒµ¿Æ¼¼Á¢ÒìÍŶӽ±£¨ÅÅÃûµÚ13£©
[10] 2022.07£¬Petroleum ScienceÆÚ¿¯2021-2022Äê¶ÈÓÅÒìÇàÄê±àί
[11] 2020.12£¬Petroleum ScienceÆÚ¿¯2020Äê¶ÈÓÅÒìÇàÄê±àί
[12] 2014.10£¬ÁìÅÜÕß5000¡ª¡ªÖйú¾«Æ·¿Æ¼¼ÆÚ¿¯¶¥¼âѧÊõÂÛÎÄ£¨F5000£©
[13] 2014.06£¬ÖйúµØÖÊ´óѧ£¨±±¾©£©ÓÅÒ첩ʿѧλÂÛÎÄ
¿ÆÑÐÏîÄ¿
[19] 2023.01-2024.12£¬Ò³ÑÒÓͲØÖØ´ó·ìÍø×¢CO2ÒºÁ÷¿ØÖÆÌá¸ß²ÉÊÕÂÊÀíÂÛÓëÊÖÒÕÑо¿£¨G2023122005L£©£¬¹ú¼Ò¸ß¶ËÍâ¹úר¼ÒÒý½øÍýÏëÏîÄ¿£¬Ö÷³Ö
[18] 2022.09-2025.03£¬¹ÅÁúÒ³ÑÒÓÍÁ¢Ìå¾®Íø×¢CO2/ÌþÀàÆøÌá¸ß²ÉÊÕÂÊ»úÀí¼°²ÎÊýÓÅ»¯Ñо¿£¨DQYT-2022-JS-761-02£©£¬ºÚÁú½Ê¡¡°½Ò°ñ¹Ò˧¡±¿Æ¼¼¹¥¹ØÏîÄ¿¿ÎÌ⣬Ö÷³Ö
[17] 2021.01-2024.12£¬Ò³ÑÒÓÍ´¢²ãÄÉ΢Ã׿׺íÖÐÓÍ-CO2-Ë®¶àԪϵͳÏàÐÐΪÓëÁ÷ÄîÍ·ÖÆÑо¿£¨52074319£©£¬¹ú¼Ò×ÔÈ»¿Æѧ»ù½ðÃæÉÏÏîÄ¿£¬Ö÷³Ö
[16] 2020.01-2024.12£¬Ò³ÑÒÓÍ´¢²ãË¢ÐÂÓëÌá²ÉÒ»Ì廯»úÀíÓëÊÖÒÕ£¨ZLZX2020-01-08£©£¬ÖÐʯÓÍÕ½ÂÔÏàÖú¿Æ¼¼×¨Ïî¿ÎÌ⣬Ö÷³Ö
[15] 2020.01-2023.12£¬Éî²ã̼ËáÑÎÑÒËáÐÔÆø²ØÊýֵģÄâÓë×¢Æø¿ØË®ÊÖÒÕ£¨U19B6003-02-05-02£©£¬¹ú¼Ò×ÔÈ»¿Æѧ»ù½ðÍŽá»ù½ðÏîÄ¿£¬Ö÷³Ö
[14] 2019.11-2021.11£¬²î±ðÀàÐÍÑÒʯ¿×϶½á¹¹±íÕ÷ÒªÁìÑо¿£¨33550000-19-ZC0607-0019£©£¬Öйúʯ»¯Ê¯ÓÍ¿±Ì½¿ª·¢Ñо¿ÔºÊÖÒÕЧÀÍÏîÄ¿£¬Ö÷³Ö
[13] 2018.12-2019.10£¬°ÍÎ÷Libra̼ËáÑÎÑÒÓͲظ»CO2»ìÏàÇýÆø´Ü¼ÍÂÉÑо¿£¨RIPED-2018-JS-688£©£¬ÖйúʯÓÍ¿±Ì½¿ª·¢Ñо¿ÔºÊÖÒÕЧÀÍÏîÄ¿£¬Ö÷³Ö
[12] 2018.05-2021.04£¬µÍÉø͸ÓͲØCO2ÇýÓÍÓë·â´æÐͬ¼Æ»®Éè¼Æ¼°¸ú×ÙÆÀ¼ÛÑо¿£¨2018YFB060550501£©£¬¹ú¼ÒÖصãÑз¢ÍýÏëרÌ⣬Ö÷³Ö
[11] 2016.01-2018.12£¬·ì¶´ÐÍ̼ËáÑÎÑÒÓͲضàÏàÁ÷ÌåÁ÷¶¯¼ÍÂÉÓëÊ£ÓàÓÍÐγɻúÀíÑо¿£¨51504268£©£¬¹ú¼Ò×ÔÈ»¿Æѧ»ù½ðÇàÄê¿Æѧ»ù½ð£¬Ö÷³Ö
[10] 2015.10-2017.09£¬Ñ¹ÁÑÒºÖмõ×è¼ÁÓëÖÂÃÜÉ°ÑÒµÄÏ໥×÷Óü°Æä¶ÔÓÍË®Éø͸ÂʵÄÓ°Ï죨2015D-5006-0209£©£¬ÖйúʯÓͿƼ¼Á¢Òì»ù½ð£¬Ö÷³Ö
[9] 2015.08-2018.07£¬·ì¶´ÐÍ̼ËáÑÎÑÒÓͲØÌá¸ß²ÉÊÕÂÊÊÖÒÕÑо¿£¨2462014YJRC053£©£¬¹«º£²Ê´¬£¨±±¾©£©°Î¼âÈ˲ſÆÑÐÆô¶¯»ù½ð£¬Ö÷³Ö
[8] 2015.01-2017.12£¬·ì¶´ÐÍ̼ËáÑÎÑÒÓͲØעˮ´ÜÒݼÍÂÉÑо¿£¨2462015YQ1105£©£¬¹«º£²Ê´¬£¨±±¾©£©ÓÅÒìÇàÄêÎ÷ϯÑо¿ÏîÄ¿£¬Ö÷³Ö
[7] 2017.01-2020.12£¬µÍÉø-ÖÂÃÜÓͲظßЧÌá¸ß²ÉÊÕÂÊÐÂÊÖÒÕ£¨2017ZX05009-004£©£¬¹ú¼Ò¿Æ¼¼ÖØ´óרÏî¿ÎÌ⣬¿ÆÑÐÖ÷¸É
[6] 2016.01-2020.12£¬·ì¶´ÐÍÓͲØÅÝĸ¨ÖúÆøÇýÌá¸ß²ÉÊÕÂÊÊÖÒÕÑо¿£¨2016ZX05014-004-004£©£¬¹ú¼Ò¿Æ¼¼ÖØ´óרÏîרÌ⣬ÊÖÒÕÊ×ϯ
[5] 2016.07-2017.06£¬³¤ÇìÓÍÌïCO2ÇýÆø´Ü¼ÍÂÉÆÊÎöÓ빤ÒÕ¶Ô²ßÑо¿£¨16CY2-FW-003£©£¬ÖйúʯÓͳ¤ÇìÓÍÌïÊÖÒÕЧÀÍÏîÄ¿£¬¿ÆÑÐÖ÷¸É
[4] 2014.07-2016.09£¬CO2Âñ´æÓëÌá¸ß²ÉÊÕÂÊÆÀ¼ÛÑо¿£¨2012BAC26B02£©£¬¹ú¼Ò¿Æ¼¼Ö§³ÖÍýÏëÏîÄ¿£¬¿ÆÑÐÖ÷¸É
[3] 2014.07-2015.01£¬·öÓàÓÍÌïÓÅÊÆͨµÀ΢¹ÛÐÎ̬¼°ÐγɻúÀíÑо¿£¨JS13-W-14-JZ-26-47£©£¬ÖйúʯÓͼªÁÖÓÍÌïÊÖÒÕЧÀÍÏîÄ¿£¬¿ÆÑÐÖ÷¸É
[2] 2013.01-2014.04£¬Effect of Polymer/Polymer Gel on Disproportionate Permeability Reduction to Gas and Water for Tight Gas£¬ÃÀ¹ú»¯Ñ§»áʯÓÍÑо¿»ù½ð£¬¿ÆÑÐÖ÷¸É
[1] 2010.09-2014.07£¬CO2ÇýÓÍÓëÂñ´æDZÁ¦ÆÀ¼Û¼°Õ½ÂÔÍýÏ루2011ZX05016-006£©£¬¹ú¼Ò¿Æ¼¼ÖØ´óרÏî¿ÎÌ⣬¿ÆÑÐÖ÷¸É
´ú±íÐÔÂÛÎÄ£¨µÚÒ»×÷Õß/ͨѶ×÷Õߣ©
ÆÚ¿¯ÂÛÎÄ
[37] ´óÇì¹ÅÁúÒ³ÑÒÓÍ-CO2¸ßѹÏà̬¼°´«ÖʼÍÂÉÑо¿£¬Ê¯ÓÍѧ±¨£¬2023.
[36] Similarity-based laboratory study of CO2 huff-n-puff in tight conglomerate cores, Petroleum Science, 2023.
[35] ¼ªÄ¾Èø¶ûÒ³ÑÒÓͶþÑõ»¯Ì¼ÍÌÍÂÌá¸ß²ÉÊÕÂÊÊÖÒÕÑо¿£¬ÌØÖÖÓÍÆø²Ø£¬2023.
[34] Adsorption behavior of n-hexane and its mixtures with CO2, CH4, H2O and SDBS in hydrophobic silica nanopores, Fuel, 2022.
[33] Pore Scale Performance Evaluation and Impact Factors in Nitrogen Huff-n-Puff EOR for Tight Oil, Petroleum Science, 2022.
[32] N2 and CO2 Huff-n-Puff for Enhanced Tight Oil Recovery: An Experimental Study Using Nuclear Magnetic Resonance, Energy & Fuels, 2022.
[31] Phase Behavior of CO2-CH4-Water Mixtures in Shale Nanopores Considering Fluid Adsorption and Capillary Pressure, Industrial & Engineering Chemistry Research, 2022.
[30] Effect of confinement on the three-phase equilibrium of water-oil-CO2 mixtures in nanopores, Petroleum Science, 2022.
[29] The viscosifying behavior of W/O emulsion and its underlying mechanisms: Considering the interfacial adsorption of heavy components, Colloids and Surfaces A, 2022.
[28] Water-based nanofluid-alternating-CO2 injection for enhancing heavy oil recovery: Considering oil-nanofluid emulsification, Journal of Petroleum Science and Engineering, 2021.
[27] Phase Behavior and Miscibility of CO2-Hydrocarbon Mixtures in Shale Nanopores, Industrial & Engineering Chemistry Research, 2021.
[26] Effect of Nanopore Confinement on Fluid Phase Behavior and Production Performance in Shale Oil Reservoir, Industrial & Engineering Chemistry Research, 2021.
[25] Wettability effects on phase behavior and interfacial tension in shale nanopores, Fuel, 2021.
[24] ÉîË®×Ç»ýÑÒÓͲØÌá¸ß²ÉÊÕÂÊÒªÁìÑо¿¡ª¡ªÒÔ°²¸çÀXÓͲØΪÀý£¬Ê¯ÓÍ×ê̽ÊÖÒÕ£¬2021.
[23] Adsorption induced critical shifts of confined fluids in shale nanopores, Chemical Engineering Journal, 2020.
[22] A critical review of CO2 enhanced oil recovery in tight oil reservoirs of North America and China, Fuel, 2020.
[21] Phase Behavior of Hydrocarbon Mixture in Shale Nanopores Considering the Effect of Adsorption and Its Induced Critical Shifts, Industrial & Engineering Chemistry Research, 2020.
[20] Gas injection for enhanced oil recovery in two-dimensional geology-based physical model of Tahe fractured-vuggy carbonate reservoirs: karst fault system, Petroleum Science, 2020.
[19] ÄÉÃ׿ÅÁ£ÔÚÑÒʯÍâòÎü¸½¡ªÍѸ½¼ÍÂÉÑо¿£¬Ê¯ÓÍ¿Æѧת´ï£¬2020.
[18] Effect of vug filling on oil-displacement efficiency in carbonate fractured-vuggy reservoir by natural bottom-water drive: A conceptual model experiment, Journal of Petroleum Science and Engineering, 2019.
[17] ÖÂÃÜ´¢¼¯²ãѹÁÑÒºÓëÖÂÃÜÉ°ÑÒÏ໥×÷ÓÃÑо¿£¬µØÖÊÓ뿱̽£¬2019.
[16] Experimental study on disproportionate permeability reduction caused by non-recovered fracturing fluids in tight oil reservoirs, Fuel, 2018.
[15] Preformed particle gel propagation and dehydration through semi-transparent fractures and their effect on water flow, Journal of Petroleum Science and Engineering, 2018.
[14] Conformance control for CO2-EOR in naturally fractured low permeability oil reservoirs, Journal of Petroleum Science and Engineering, 2018.
[13] Using screen models to evaluate the injection characteristics of particle gels for water control, Energy & Fuels, 2018.
[12] ·ì¶´ÐÍÓͲØÁѺÛÄÚÓÍË®Á½ÏàÁ÷¶¯ÌØÕ÷Ñо¿£¬Î÷°²Ê¯ÓÍ´óѧѧ±¨£¨×ÔÈ»¿Æѧ°æ£©£¬2018.
[11] ³íÓÍÓͲØ×¢³¬ÁÙ½ç¶þÑõ»¯Ì¼ÇýÓÍÓ°ÏìÒòËØÆÊÎö£¬µØÖÊÓ뿱̽£¬2017.
[10] ÇáÖÊÓͲØ×¢¿ÕÆøÌá¸ß²ÉÊÕÂÊÊÖÒÕ˳ӦÐÔ̽ÌÖ£¬Öйú¿óÒµ£¬2016.
[9] Effect of polymer on disproportionate permeability reduction to gas and water for fractured shales, Fuel, 2015.
[8] Effect of polymer on gas flow behavior in microfractures of unconventional gas reservoirs, Journal of Natural Gas Science and Engineering, 2015.
[7] ˼Á¿×ÝÏò·Ç¾ùÖÊÐԵĵ×Ë®Æø²ØÁÙ½ç²úÁ¿ÅÌËãÒªÁ죬¿ÆѧÊÖÒÕÓ빤³Ì£¬2015.
[6] D-optimal design for Rapid Assessment Model of CO2 flooding in high water cut oil reservoirs, Journal of Natural Gas Science and Engineering, 2014.
[5] Sensitivity analysis of water-alternating-CO2 flooding for enhanced oil recovery in high water cut oil reservoirs, Computers & Fluids, 2014.
[4] Derivation of water flooding characteristic curve for high water-cut oilfields, Petroleum Exploration and Development, 2013.
[3] ¸ßº¬Ë®ÆÚÓÍÌïË®ÇýÌØÕ÷ÇúÏß¹ØϵʽµÄÀíÂÛÍƵ¼£¬Ê¯ÓÍ¿±Ì½Ó뿪·¢£¬2013.
[2] Ë®ÇýÓͲØתעCO2ÇýÓͲÎÊýÓÅ»¯ÓëЧ¹ûÆÀ¼Û£¬Î÷°²Ê¯ÓÍ´óѧѧ±¨£¨×ÔÈ»¿Æѧ°æ£©£¬2012.
[1] ˼Á¿·Ç´ïÎ÷ÉøÁ÷µÄµ×ˮ׶½øÁÙ½ç²úÁ¿ÅÌËãÄ£×Ó£¬Ê¯ÓÍѧ±¨£¬2012.
¾Û»áÂÛÎÄ»ò±¨¸æ
[23] ¹ÅÁúÒ³ÑÒÓÍ×¢CO2Ïà±äÉøÁ÷ÓëÌá¸ß²ÉÊÕÂÊ»úÀí£¬µÚÁù½ìÓÍÆøµØÖʹ¤³ÌÒ»Ì廯ÂÛ̳
[22] ˼Á¿Ñ¹ÁÑ´Ü·¸µÄÒ³ÑÒÓͲؿ×϶-ÁѺ۽éÖÊÓÍË®Á½ÏàÁ÷ÄîÍ·Àí£¬µÚÁù½ìÓÍÆøµØÖʹ¤³ÌÒ»Ì廯ÂÛ̳
[21] Ò³ÑÒÓͲؾ®¼äѹÁÑ×ÌÈÅʵÀýÆÊÎö¼°·ÀÖζԲßÑо¿£¬µÚÁù½ìÓÍÆøµØÖʹ¤³ÌÒ»Ì廯ÂÛ̳
[20] Effect of CO2 Dissolution on Fluid Flow and Phase Behavior in Oil- Water Systems in Shale Reservoirs, URTeC 3860690 presented at SPE/AAPG/SEG Unconventional Resources Technology Conference, 2023.
[19] The application of focused ion beam scanning electron microscope (FIB-SEM) to the nanometer-sized pores in shales, presented at InterPore 2023, 2023.
[18] Ò³ÑÒÓÍ´¢²ãÌá¸ß²ÉÊÕÂÊ»úÀíÓëÒªÁì̽ÌÖ, µÚÎå½ìÌá¸ß²ÉÊÕÂʹú¼Ê¾Û»á£¨ÌØÑû±¨¸æ/·Ö»áÖ÷³ÖÈË£©£¬2021.
[17] Ò³ÑÒÓÍ´¢²ãÌá¸ß²ÉÊÕÂÊ»úÀíÓëÊÖÒÕ̽ÌÖ£¬µÚÎå½ìÌìÏÂÓÍÆø²ØÌá¸ß²ÉÊÕÂÊÊÖÒÕ×êÑлᣨÌØÑû±¨¸æ/·Ö»áÖ÷³ÖÈË£©£¬2021.
[16] Adsorption Behavior of Shale Oil in Slit Pores and Its Underlying Mechanisms: Insights from Molecular Dynamic Simulation, presented at 2020 AIChE Annual Meeting, 2020.
[15] Phase behavior and minimum miscibility pressure of confined fluids in organic nanopores, SPE 200449 presented at SPE Improved Oil Recovery Conference, 2020.
[14] Confinement Effect on the Fluid Phase Behavior and Flow in Shale Oil Reservoirs, URTeC 3135 presented at SPE/AAPG/SEG Unconventional Resources Technology Conference, 2020.
[13] Ò³ÑÒÄÉÃ׿×ÄÚÌþÀàÁ÷ÌåÏàÐÐΪÑо¿£¬µÚËĽìÌìÏÂÓÍÆø²ØÌá¸ß²ÉÊÕÂÊÊÖÒÕ×êÑлᣨÌØÑû±¨¸æ/·Ö»áÖ÷³ÖÈË£©£¬2020.
[12] Phase equilibria of confined fluids in nanopores of shale rocks from an adsorption-dependent equation of state, presented at 2019 AIChE Annual Meeting, 2019.
[11] A critical review of CO2 enhanced oil recovery in tight oil reservoirs of North America and China, SPE 196548 presented at SPE/IATMI Asia Pacific Oil & Gas Conference and Exhibition, 2019.
[10] Modifying peng-robinson equation of state to consider influence of confinement on fluid phase behavior, presented at Carbon Management Technology Conference, 2019.
[9] Experimental modeling of gas channeling for water-alternating-gas flooding in high-temperature and high-pressure reservoirs, presented at Carbon Management Technology Conference, 2019.
[8] Effect of water-alternating-gas injection on gas and water production control in carbonate reservoirs, presented at Carbon Management Technology Conference, 2019.
[7] Recognition on gas channeling characteristics during CO2 flooding in low permeability reservoirs, presented at 2nd International Symposium on Oilfield Chemistry (Invited Speaker/Session Host), 2018.
[6] µÍÉø͸ÓͲضþÑõ»¯Ì¼ÇýÓÍÆø´Ü¼ÍÂÉÓë·ÀÖβ½·¥Ñо¿£¬µÚ¶þ½ìÌìÏÂÓÍÆø²ØÌá¸ß²ÉÊÕÂÊÊÖÒÕ×êÑлᣨÌØÑû±¨¸æ/´ó»áÖ÷³ÖÈË£©£¬2018.
[5] Fracturing fluid retention and its effect on fluid flow in microfractures of tight oil reservoirs, presented at 2017 AIChE Annual Meeting, 2017.
[4] Nitrogen gas flooding for naturally fractured carbonate reservoir: Visualisation experiment and numerical simulation, SPE 182479 presented at SPE Asia Pacific Oil & Gas Conference and Exhibition, 2016.
[3] Mechanism and applications of high-pressure air injection in light oil reservoirs, Presented at 2016 International Conference on New Energy and Sustainable Development, 2016.
[2] D-optimal design for Rapid Assessment Model of CO2 flooding in high water cut oilfields, Presented at 2014 International Conference on Enhanced Oil Recovery, 2014.
[1] ˼Á¿×ÝÏò·Ç¾ùÖÊÐԵĵ×Ë®Æø²ØÁÙ½ç²úÁ¿ÅÌËãÒªÁ죬µÚ°Ë½ì±±¾©Ê¯ÓÍÇàÄêѧÊõÄê»á£¬2010.
רÀû
[19] ±ßµ×Ë®ÇÖÄ£Äâ×°Öá¢ÒªÁì¡¢´æ´¢½éÖʼ°²úÆ·£¬ZL202110839749.5
[18] Ò»ÖÖС·Ö×Ó³íÓͽµÕ³¾ÛºÏÎï¼°ÆäÖƱ¸ÒªÁ죬ZL202011367550.9
[17] Ò»ÖÖÖÂÃÜÉ°ÑÒÉøÎüЧ¹ûÆÀ¼ÛÒªÁì¼°×°Öã¬ZL202010082639.4
[16] ÓÍÆø×îС»ìÏàѹÁ¦È·¶¨ÒªÁì¼°×°Öã¬ZL202010105946.X
[15] Ò»ÖÖÈ·¶¨Ò³ÑÒ¿×¾¶ÂþÑܵÄÒªÁì¡¢×°Öá¢×°±¸¼°ÏµÍ³£¬ZL202010289460.6
[14] ÑÒÐļгÖÆ÷£¬ZL201910967950.4
[13] Ò»ÖÖ×¢ÆøÇýÓÍʵÑéÁ÷Ìå¼òÖ±¶¨ÒªÁì¼°×°Öã¬ZL201910879964.0
[12] CO2ÇýÓÍÊÖÒÕЧ¹ûµÄÆÀ¼ÛÒªÁì¼°×°Öã¬ZL201811043315.9
[11] ·ì¶´ÐÍ̼ËáÑÎÑÒÓͲط춴ÂþÑÜͼµÄ½¨ÉèÒªÁì¼°Ä£×ÓºÍÓ¦Óã¬ZL201810520795.7
[10] Ò»ÖÖ΢ÊèÉ¢Äý½ºÇ¿»¯ÅÝÄϵͳ¼°ÆÀ¼ÛÒªÁ죬ZL201710992894.0
[9] Ä£ÄâÖÂÃÜÓͲØÁѺÛÄÚÁ÷ÌåÁ÷¶¯µÄ¿ÉÊÓ»¯Ä£×Ó¼°ÖƱ¸ºÍÓ¦Óã¬ZL 201711005687.8
[8] Ò»ÖÖÅÝÄ×ÛºÏÐÔÄÜÆÀ¼ÛÒªÁ죬ZL201710991873.7
[7] Ò»ÖÖË®ÇýÓÍÌïÓÅÊÆͨµÀÐγɻúÀí¼°·¢ÓýÇéÐεÄÆÊÎöÒªÁ죬ZL201510084039.0
[6] ·ì¶´ÐÍÓͲØÈýά¿ÉÊÓ»¯Ä£×Ó¼°ÆäÖÆ×÷ÒªÁ죬ZL201511006046.5
[5] Ä£Äâ·ì¶´ÐÍ̼ËáÑÎÑÒÓͲØ×¢ÆøµÄ¿ÉÊÓ»¯ÊµÑé×°Öü°ÒªÁ죬ZL201510724935.9
[4] Ò»ÖÖ±íÕ÷·ì¶´ÐÍÓͲØË®Çý¿ª²ÉЧ¹ûµÄÒªÁ죬ZL201510440959.1
[3] ·ì¶´ÐÍ̼ËáÑÎÑÒÓͲØÎïÀíÄ£×Ó¡¢ÇýÌæÄ£ÄâʵÑé×°Öü°ÏµÍ³£¬ZL201510712835.4
[2] Ò»ÖÖ·Ö¼¶¿ØÖÆÁ÷¶ÈµÄCO2ÇýÓͲؿª²ÉÒªÁ죬ZL201510309517.3
[1] ÓÃÓÚµÍÉø͸ɰÑÒÓͲصÄÇýÓÍʵÑé×°Öü°ÒªÁ죬ZL201510236158.3
ѧÊõ¼æÖ°
[1] ʯÓ͹¤³Ì½ÌÓý²¿ÖصãʵÑéÊÒ¸±Ö÷ÈÎ
[2] ±±¾©ÄÜÔ´ÓëÇéÐÎѧ»áר¼ÒίԱ»á¸±Ö÷ÈÎ
[3] ¹ú¼ÒÁì¾üÆÚ¿¯Petroleum Science¸±Ö÷±à
[4] GeofluidsÆÚ¿¯±àί/ѧÊõ±à¼
[5] EnergiesÆÚ¿¯¡°New Insights into Enhanced Oil Recovery¡±×¨¿¯¿Í×ù±à¼
[6] ¡¶Ê¯ÓÍ¿Æѧת´ï¡·Ö´Ðбàί
[7] 2021/2022/2023 Unconventional Resources Technology ConferenceÆÀί
[8] SPE J£¬Fuel£¬Energy & Fuels£¬Journal of Petroleum Science and Engineering£¬Journal of Natural Gas Science and Engineering£¬Petroleum Science£¬Energy Reports£¬European Physical Journal Plus£¬Journal of Unconventional Oil and Gas Resources£¬International Journal of Oil, Gas and Coal Technology£¬Ê¯ÓÍ¿±Ì½Ó뿪·¢µÈѧÊõÆÚ¿¯Éó¸åÈË
°æȨËùÓУº¹«º£²Ê´¬£¨±±¾©£©Ì¼ÖкÍÊ÷Ä£ÐÔÄÜԴѧԺ