師資
王建春副教授于2007年和2012年畢業于北京大學工學院,分別獲得理論與應用力學專業的學士學位和流體力學專業的博士學位。2012年至2013年做為培源學者在北京大學應用物理與技術研究中心進行研究工作。2013年至2016年分別在普林斯頓大學和名古屋工業大學進行博士后研究工作。2016年9月至2018年1月在南方科技大學力學與航空航天工程系任助理教授;2018年2月起,任副教授。
從事湍流理論與數值模擬、流動穩定性、計算流體力學等領域的研究。學術成果包括:
(1)發展了模態分解方法,研究了可壓縮湍流場的多尺度性質,包括:聲波模態和偽聲模態的能譜、剪切過程和脹壓過程的動能傳輸機理、小尺度結構、標度律和間歇性、激波和渦結構相互作用等。相關研究成果為發展先進的可壓縮湍流模型提供了理論依據。
(2)發展了熱力學方法,研究了泊肅葉流動的亞臨界失穩問題,確定了層流發生非線性失穩的臨界雷諾數,計算了系統的自由能、作用量和熱力學關系式。該方法可以用于解決更多的亞臨界失穩問題。
2017年入選中國科協第二批青年人才托舉工程。
研究方向
湍流理論與數值模擬
流動穩定性
計算流體力學
教育背景
2003.9-2007.7,北京大學,工學院,學士
2007.9-2012.7,北京大學,工學院,博士
工作經歷
2012.7-2013.7,北京大學,應用物理與技術研究中心,培源學者
2013.8-2016.1,美國普林斯頓大學,博士后
2016.2-2016.8,日本名古屋工業大學,博士后
2016.9至今,南方科技大學,力學與航空航天工程系,助理教授、副教授
所獲榮譽
2017年,中國科協第二批青年人才托舉工程
論文
(22). Luoqin Liu, Jianchun Wang, Yipeng Shi, Shiyi Chen and X. T. He*. 2018. A hybrid numerical simulation of supersonic isotropic turbulence, Communications in Computational Physics. Accepted.
(21). Song Chen, Jianchun Wang*, Hui Li, Minping Wan and Shiyi Chen. 2018. Spectra and Mach number scaling in compressible homogeneous shear turbulence, Physics of Fluids, 30, 065109.
(20). Chenyue Xie, Jianchun Wang*, Hui Li, Minping Wan and Shiyi Chen. 2018. A modified optimal LES model for highly compressible isotropic turbulence, Physics of Fluids, 30, 065108.
(19). Jianchun Wang*, Minping Wan*, Song Chen, Chenyue Xie and Shiyi Chen. 2018. Effect of shock waves on the statistics and scaling in compressible isotropic turbulence, Physical Review E, 97, 043108.
(18). Jianchun Wang*, Minping Wan*, Song Chen and Shiyi Chen. 2018. Kinetic energy transfer in compressible isotropic turbulence, Journal of Fluid Mechanics, 841, 581-613.
(17). J. Wang*, T. Gotoh, and T. Watanabe. 2017. Scaling and intermittency in compressible isotropic turbulence, Physical Review Fluids, 2, 053401.
(16). J. Wang*, T. Gotoh, and T. Watanabe. 2017. Shocklet statistics in compressible isotropic turbulence, Physical Review Fluids, 2, 023401.
(15). J. Wang*, T. Gotoh, and T. Watanabe. 2017. Spectra and statistics in compressible isotropic turbulence, Physical Review Fluids, 2, 013403.
(14). Y. Yang, J. Wang, Y. Shi*, Z. Xiao, X. He, and S. Chen. 2016. Intermittency caused by compressibility: a Lagrangian study. Journal of Fluid Mechanics, 786, R6.
(13). Weinan E* and J. Wang. 2016. A thermodynamic study of the two-dimensional pressure driven channel flow. Discrete and Continuous Dynamical Systems, 36, 4349-4366.
(12). J. Wang, Q. Li, and Weinan E*. 2015. Study of the instability of the Poiseuille flow using a thermodynamic formalism. Proceedings of the National Academy of Sciences of the United States of America, 112, 9518-9523.
(11). S. Chen*, Z. Xia, J. Wang, Y. Yang. 2015. Recent progress in compressible turbulence. Acta Mechanica Sinica, 31, 275-291.
(10). Y. Yang, J. Wang, Y. Shi*, Z. Xiao, X. He, and S. Chen. 2014. Interactions between inertial particles and shocklets in compressible turbulent flow. Physics of Fluids, 26, 091702.
(9). J. Wang, Y. Yang, Y. Shi, Z. Xiao, X. He, and S. Chen*. 2013. Statistics and structures of pressure and density in compressible isotropic turbulence. Journal of Turbulence, 14, 21-37.
(8). J. Wang, Y. Yang, Y. Shi*, Z. Xiao, X. He, and S. Chen*. 2013. Cascade of kinetic energy in three-dimensional compressible turbulence. Physical Review Letters, 110, 214505.
(7). Y. Yang, J. Wang, Y. Shi*, Z. Xiao, X. He, and S. Chen*. 2013. Acceleration of Passive Tracers in Compressible Turbulent Flow. Physical Review Letters, 110, 064503.
(6). J. Wang*, Y. Shi, L.-P. Wang, Z. Xiao, X. He, and S. Chen*. 2012. Effect of compressibility on the small scale structures in isotropic turbulence. Journal of Fluid Mechanics, 713, 588-631.
(5). J. Wang, Y. Shi, L.-P. Wang, Z. Xiao, X. He, and S. Chen*. 2012. Scaling and Statistics in Three-Dimensional Compressible Turbulence. Physical Review Letters, 108, 214505.
(4). S. Chen, Z. Xia, S. Pei, J. Wang, Y. Yang, Z. Xiao, and Y. Shi*. 2012. Reynolds stress-constrained large eddy simulation of wall-bounded turbulent flows. Journal of Fluid Mechanics, 703, 1-28.
(3). Q. Ni*, F. Hussain, J. Wang, and S. Chen*. 2012. Analysis of Reynolds number scaling for viscous vortex reconnection. Physics of Fluids, 24, 105102.
(2). J. Wang*, Y. Shi, L.-P. Wang, Z. Xiao, X. He, and S. Chen*. 2011. Effect of shocklets on the velocity gradients in highly compressible isotropic turbulence. Physics of Fluids, 23, 125103.
(1). J. Wang, L.-P. Wang*, Z. Xiao, Y. Shi, and S. Chen*. 2010. A hybrid numerical simulation of isotropic compressible turbulence. Journal of Computational Physics, 229, 5257-5279.