¡¡¡¡
ÐÕÃû£º ÁÎÇÚ×¾
Ö°³Æ£º½ÌÊÚ/²©µ¼
½ÌÓýÅä¾°£º
2009-2014 ÃÀ¹úÄϼÓÖÝ´óѧ���£¬Ê¯Ó͹¤³Ì���£¬Ö±²©
2005-2009 ±±¾©´óѧ���£¬Á¦Ñ§���£¬±¾¿Æ
ÊÂÇéÂÄÀú£º
2022-ÖÁ½ñ ¹«º£²Ê´¬£¨±±¾©£©���£¬Ê¯Ó͹¤³ÌѧԺ���£¬ÓÍÆø¾®¹¤³Ìϵ���£¬¸±½ÌÊÚ/½ÌÊÚ
2017-2021 ɳÌØ·¨ºÕµÂ¹úÍõʯÓÍÓë¿óÒµ´óѧ���£¬Ê¯Ó͹¤³Ìϵ���£¬ÖúÀí½ÌÊÚ
2016-2017 ±±¾©´óѧ���£¬ÄÜÔ´Óë×ÊÔ´¹¤³Ìϵ���£¬²©Ê¿ºó
2015-2016 ÃÀ¹ú˹̹¸£´óѧ���£¬ÄÜÔ´Óë×ÊÔ´¹¤³Ìϵ���£¬²©Ê¿ºó
СÎÒ˽¼ÒÖ÷Ò³£º https://faculty.cup.edu.cn/liaoqinzhuo/
µç×ÓÓÊÏ䣺 liaoqz@cup.edu.cn
Ñо¿Æ«Ïò£º ÖÇÄÜÓÍÆø¡¢Í꾮ѹÁÑ¡¢»úеѧϰ¡¢ÊðÀíÄ£×Ó¡¢±ê×¼Éý¼¶
½ÌѧÇéÐΣº ¡¶È˹¤ÖÇÄܸÅÂÛÓëʵս¡·¡¢¡¶¸ßµÈÍê¾®¹¤³Ì(È«Ó¢ÎÄ)¡·µÈ
Ö÷ҪѧÊõЧ¹û£º
Ò»Ö±´ÓÊÂÖÇÄÜÓÍÆø¿ª²ÉµÄÀíÂÛÓëÒªÁìÑо¿���£¬Ö÷³Ö¹ú¼Ê/º£ÄÚ¿ÆÑÐÏîÄ¿10ÓàÏî���£¬ÒÔµÚÒ»/ͨѶ×÷Õß½ÒÏþÂÛÎÄSCIÊÕ¼30Óàƪ���£¬´ó²¿·Ö½ÒÏþÔÚÖпÆÔºTOPÆÚ¿¯/ÐÐÒµ¶¥¿¯���£¬°üÀ¨4ƪWRR¡¢2ƪJOH¡¢2ƪAWR¡¢2ƪSPEJ¡¢3ƪJPSEµÈ�¡£¹ú¼Ê¾Û»áÌØÑû±¨¸æ2´Î¡¢×¨Ìⱨ¸æ30Óà´Î�¡����£»ñÅú¹ú¼Ò¼¶ÇàÄêÈ˲Å���£¬Ê¯Ó͹¤³Ì¶¥¿¯SPE Journal Outstanding Technical Reviewer Award�¡£ÏÖÔÚÖ÷Òª¿ªÕ¹ÖÇÄÜÍ꾮ѹÁÑÀíÂÛÓëÊÖÒÕÑо¿�¡£
´ú±íÐÔÂÛÎÄ£º
1. µÚÒ»×÷ÕßÆÚ¿¯ÂÛÎÄ
[1] Qinzhuo Liao, Gensheng Li*, Jun Li, Liang Xue, Shouceng Tian, Xianzhi Song (2023). Convergence analysis of lattice boltzmann method for stokes flow in digital rock characterization. Geoenergy Science and Engineering, 230, 212161.
[2] Qinzhuo Liao, Gensheng Li*, Shouceng Tian, Xianzhi Song, Gang Lei, Xu Liu, Weiqing Chen, Shirish Patil (2023). An efficient analytical approach for steady-state upscaling of relative permeability and capillary pressure. Energy, 282, 128426.
[3] Qinzhuo Liao, Shaohua You*, Maolei Cui, Xiaoxi Guo, Murtada Saleh Aljawad, and Shirish Patil (2023). Digital core permeability computation by image processing techniques. Water, 15(11): 1995.
[4] Qinzhuo Liao, Daolun Li*, Kai Zhang, Haibin Chang (2023). Applications of artificial intelligence in the oil and gas industry. Frontiers in Earth Science, 11, 1163593.
[5] Qinzhuo Liao* (2023), Ensemble smoother with enhanced initial samples for inverse modeling of subsurface flow problems. Arabian Journal for Science and Engineering, 48, 9535¨C9548.
[6] Qinzhuo Liao, Liang Xue, Bin Wang, and Gang Lei* (2022). A new upscaling method for microscopic fluid flow based on digital rocks. Advances in Geo-Energy Research, 6(4): 357-358.
[7] Qinzhuo Liao, Liang Xue*, Gang Lei, Xu Liu, Shuyu Sun, Shirish Patil (2022). Statistical prediction of waterflooding performance by K-means clustering and empirical modeling, Petroleum Science, 19(3), 1139-1152.
[8] Qinzhuo Liao, Gang Lei, Dongxiao Zhang*, Shirish Patil (2021). Estimation of Macrodispersivity in Bounded Formations by Circulant Embedding and Analysis of Variance, Water Resources Research, 57(7), e2020WR029385.
[9] Qinzhuo Liao*, Khalid Alsamadony, Gang Lei, Abeeb Awotunde, Shirish Patil (2021). Reservoir history matching by ensemble smoother with principal component and sensitivity analysis for heterogeneous formations, Journal of Petroleum Science and Engineering, 198, 108140.
[10] Qinzhuo Liao, Gang Lei, Zhijie Wei, Dongxiao Zhang*, Shirish Patil (2020). Efficient analytical upscaling method for elliptic equations in three-dimensional heterogeneous anisotropic media, Journal of Hydrology, 583, 124560.
[11] Qinzhuo Liao*, Lingzao Zeng, Haibin Chang, Dongxiao Zhang (2019). Efficient history matching using Markov chain Monte Carlo by means of transformed adaptive stochastic collocation method. SPE Journal, 24(4), 1468¨C1489, SPE-194488-PA.
[12] Qinzhuo Liao*, Gang Lei, Dongxiao Zhang, Shirish Patil (2019). Analytical solution for upscaling hydraulic conductivity in anisotropic heterogeneous formations. Advances in Water Resources, 128, 97¨C116.
[13] Qinzhuo Liao*, Dongxiao Zhang, Hamdi Tchelepi (2017). Nested sparse grid collocation method with delay and transformation for subsurface flow and transport problems. Advances in Water Resources, 104, 158¨C173.
[14] Qinzhuo Liao*, Dongxiao Zhang, Hamdi Tchelepi (2017). A two-stage adaptive stochastic collocation method on nested sparse grids for multiphase flow in randomly heterogeneous porous media. Journal of Computational Physics, 30, 828¨C845.
[15] Qinzhuo Liao, Dongxiao Zhang* (2016). Probabilistic collocation method for strongly nonlinear problems: 3. Transform by time. Water Resources Research, 52(3), 2366¨C2375.
[16] Qinzhuo Liao, Dongxiao Zhang* (2015). Data assimilation for strongly nonlinear problems by transformed ensemble Kalman filter. SPE Journal, 20(1), 202¨C221, SPE-173893-PA.
[17] Qinzhuo Liao, Dongxiao Zhang* (2015). Constrained probabilistic collocation method for uncertainty quantification of geophysical models. Computational Geosciences, 19(2), 1¨C16.
[18] Qinzhuo Liao, Dongxiao Zhang* (2014). Probabilistic collocation method for strongly nonlinear problems: 2. Transform by displacement. Water Resources Research, 50(11), 8736¨C8759.
[19] Qinzhuo Liao, Dongxiao Zhang* (2013). Probabilistic collocation method for strongly nonlinear problems: 1. Transform by location. Water Resources Research, 49(12), 7911¨C7928.
[20] Qinzhuo Liao (co-first), Jianyong Huang, Tao Zhu, Chunyang Xiong*, Jing Fang (2010). A hybrid model to determine mechanical properties of soft polymers by nanoindentation. Mechanics of Materials, 42(12), 1043¨C1047.
2. ͨѶ×÷ÕßÆÚ¿¯ÂÛÎÄ
[1] Dongshuang Li, Shaohua You, Qinzhuo Liao*, Gang Lei, Xu Liu, Weiqing Chen, Huijian Li, Bo Liu, Xiaoxi Guo (2023). Permeability prediction of nanoscale porous materials using discrete cosine transform-based artificial neural networks. Materials, 16(13), 4668.
[2] Dongshuang Li, Shaohua You, Qinzhuo Liao*, Mao Sheng, Shouceng Tian (2023). Prediction of Shale Gas Production by Hydraulic Fracturing in Changning Area Using Machine Learning Algorithms. Transport in Porous Media, 149, 373¨C388.
[3] Miao Jin, Qinzhuo Liao*, Shirish Patil, Abdulazeez Abdulraheem, Dhafer Al-Shehri, Guenther Glatz (2022). Hyperparameter Tuning of Artificial Neural Networks for Well Production Estimation Considering the Uncertainty in Initialized Parameters. ACS Omega, 7(28), 24145¨C24156.
[4] Gang Lei, Qinzhuo Liao*, Shirish Patil (2021). A New Mechanistic Model for Conductivity of Hydraulic Fractures with Proppants Embedment and Compaction, Journal of Hydrology, 601, 126606.
[5] Gang Lei, Qinzhuo Liao*, Shirish Patil, Yang Zhao (2021). A new permeability model for argillaceous porous media under stress dependence with clay swelling, International Journal of Engineering Science, 160, 103452.
[6] Gang Lei, Qinzhuo Liao*, Shirish Patil (2020). A mechanistic model for permeability in deformable gas hydrate-bearing sediments, Journal of Natural Gas Science and Engineering, 83, 103554.
[7] Gang Lei, Qinzhuo Liao*, Shirish Patil, Yang Zhao (2019). Effect of clay content on permeability behavior of argillaceous porous media under stress dependence: A theoretical and experimental work, Journal of Petroleum Science and Engineering, 179, 787-795.
[8] Gang Lei, Qinzhuo Liao*, Dongxiao Zhang (2019). A new analytical model for flow in acidized fractured-vuggy porous media, Scientific Reports, 9(1), 8293.
[9] Gang Lei, Qinzhuo Liao*, Shirish Patil (2019). A fractal model for relative permeability in fractures under stress dependence, Fractals, 27(6), 1950092.
[10] Yi Hong, Qinzhuo Liao*, Celine Bonhomme, Ghassan Chebbo (2019). Physically-based urban stormwater quality modelling: an efficient approach for calibration and sensitivity analysis, Journal of Environmental Management, 246, 462¨C471.
Ö÷Òª¿ÆÑÐÏîÄ¿£º
[1] Öйú¹ú¼Ò×ÔÈ»¿Æѧ»ù½ð���£¬¹ú¼Ò¼¶ÇàÄêÈ˲ÅÏîÄ¿���£¬ÖÇÄÜÓÍÆø¿ª²É���£¬ÈÏÕæÈË
[2] Öйú¹ú¼Ò×ÔÈ»¿Æѧ»ù½ð���£¬ÃæÉÏÏîÄ¿���£¬¿Ý½ßÓÍÆø²Ø´¢ÇâÑ»·×¢²É¶à³¡ñîÐÁ¦Ñ§»úÀí���£¬ÈÏÕæÈË
[3] Öйú¹ú¼Ò×ÔÈ»¿Æѧ»ù½ð���£¬ÇàÄêÏîÄ¿���£¬·Ç¾ùÖÊÓͲضàÏàÁ÷Ä£ÄâµÄÉý±ê×¼ÒªÁì���£¬ÈÏÕæÈË
[4] Öйú²©Ê¿ºó¿Æѧ»ù½ð���£¬ÃæÉÏÏîÄ¿Ò»µÈ×ÊÖú���£¬º¬¸ßÉø͸ͨµÀÓͲØË®Çý¿ª·¢µÄÍø¸ñ´Ö»¯Ñо¿���£¬ÈÏÕæÈË
[5] ¹«º£²Ê´¬(±±¾©)���£¬ÓÅÒìÇàÄêѧÕßÈ˲ÅÍýÏëÆô¶¯»ù½ð���£¬·ÇͨÀý´¢²ã΢¹ÛÉøÁ÷ÌØÕ÷ÓëÄ£ÄâÒªÁìÑо¿���£¬ÈÏÕæÈË
[6] ÖÐʯÓͳ¤ÇìÓÍÌï·Ö¹«Ë¾���£¬ÅèµØÎ÷Ôµ·ÇͨÀý´¢²ãѹÁÑÌá²úÒªº¦ÒòËØÑо¿ÓëÓÅ»¯Éè¼Æ���£¬ÈÏÕæÈË
[7] ÖÐʯ»¯Ê¯ÓÍ¿±Ì½¿ª·¢Ñо¿Ôº���£¬Ò³ÑÒÁѺۻùÖÊϵͳµ¼Á÷ÄÜÁ¦ÆÀ¼ÛÒªÁì���£¬ÈÏÕæÈË
[8] ɳÌØ·¨ºÕµÂ¹úÍõʯÓÍÓë¿óÒµ´óѧ���£¬·Ç¾ùÖÊÔ̲ØÓÍÆøÉú²úµÄ²»È·¶¨ÐÔÆÊÎöÓëÀúÊ·ÄâºÏ���£¬ÈÏÕæÈË
[9] ɳÌØ·¨ºÕµÂ¹úÍõʯÓÍÓë¿óÒµ´óѧ���£¬Ó¦Á¦Ìõ¼þÏ·ÖÐζà¿×½éÖÊÖеÄÁ÷ÌåÁ÷¶¯ºÍ´«Êä���£¬ÈÏÕæÈË
[10] ɳÌØ·¨ºÕµÂ¹úÍõʯÓÍÓë¿óÒµ´óѧ���£¬·Ç¾ùÖʵزãÓÍÆøÉú²úµÄÀúÊ·ÄâºÏ���£¬ÈÏÕæÈË
Ö÷ÒªÉùÓþ»ñ½±£º
[1] ¹ú¼Ò¼¶ÇàÄêÈ˲Å
[2] SPE Journal Outstanding Technical Reviewer Award
[3] ¹«º£²Ê´¬(±±¾©)ÓÅÒìÇàÄêѧÕß
[4] ÂÌÉ«¿óɽ¿ÆѧÊÖÒÕÒ»µÈ½±
[5] ʯÓ͹¤³ÌÑÒʯÁ¦Ñ§Ê®¼Ñ¿Æ¼¼Ï£Íû½±
[6] ÖйúÓÍÆøÈ˹¤ÖÇÄÜÓÅÒì°¸Àý
[7] ÌìÏ´óѧÉúÊýѧ½¨Ä£¾ºÈüÒ»µÈ½±
[8] ÌìÏ´óѧÉúÎïÀí¾ºÈüÒ»µÈ½±
Ö÷ҪѧÊõ¼æÖ°£º
[1] SPE Annual Technical Conference & Exhibition (SPEÄê»á£©µÈ¹ú¼Ê¾Û»á·Ö»á³¡Ö÷ϯ
[2] Petroleum Science¡¢Advances in Geo-Energy Research¡¢Ê¯ÓÍ×ê̽ÊÖÒÕµÈÆÚ¿¯ÇàÄê±àί
[3] Petroleum Science¡¢Frontiers in Earth Science¡¢Water µÈÆÚ¿¯×¨¿¯Ö÷±à
[4] SPE Journal¡¢Water Resources Research µÈ20Óà¸öÖøÃûÆÚ¿¯Éó¸åÈË
¡¡¡¡
