工学博士 2013.09 – 2023.06 

流体力学 上海大学 上海市应用数学和力学研究所 力学与工程科学学院 中国上海 

理学学士 2008.09 – 2012.06 

理论与应用力学基地班 兰州大学 土木工程与力学学院 甘肃兰州

• 颗粒-湍流多相流，颗粒-热湍流 

• 格子Boltzmann方法

• 流动控制

[1] SHEN J, PENG C, LU Z M∗ , WANG L P. The influence of particle density and diameter on the interactions between the finite-size particles and the turbulent channel flow[J]. Int. J. Multiph. Flow, 2024, 170: 104659.

[2] SHEN J, PENG C, WU J Z, CHONG K L, LU Z M∗ , WANG L P. Turbulence modulation by finite-size particles of different diameters and particle-fluid density ratios in homogeneous isotropic turbulence[J]. J. Turbul., 2022, 23(8): 433–453.

[3] SHEN J, PENG C, LU Z M∗ , WANG L P. The influence of particle-fluid density ratio on the dynamics of finite-size particle in homogeneous isotropic turbulent flows[J]. Phys. Rev. E, 2021, 104(2): 0251092. 

[4] Jiang H, Lu Z M∗ , Wang B F, Meng X H, Shen J, Chong K L∗ . Spatial distribution of inertial particles in turbulent Taylor–Couette flow[J]. J. Fluid Mech., 2025, 1006: A2. 

[5] Ma Y P, Qiu X∗ , Xia Y X∗ , Zhang S, Shen J, Liu Y L. The modulation of the turbulent structures in channel flow with porous and rough wall[J]. Phys. Fluids, 2025, 37(2). 

[6] 郭琳, 沈杰∗ , 彭程, 郭照立, 王连平∗ , 牛中国. 基于DUGKS 的槽道湍流大涡模拟研究[J]. 力学学报, 2024, 56(12): 3394-3408 

[7] QI Y M, SHEN J, Wang L P∗ , GUO Z L. Lifting relations for a generalized total-energy double-distribution-function kinetic model and their impact on compressible turbulence simulation[J]. Comput. Fluids, 2024, 280: 106368. 

[8] WU H C, KARZHAUBAYEV K, SHEN J, WANG L P∗ . Direct numerical simulation of three-dimensional particle-laden thermal convection using the Lattice Boltzmann Method[J]. Comput. Fluids, 2024, 276: 106268. 

[9] ZHOU Y X, WU J Z∗ , SHEN J, LU Z M. On the scale locality and vortex stretching in homogeneous shear turbulence[J]. Phys. Fluids, 2023, 35(7). 

[10] CHENG H, SHEN J, ZHANG Y Z, ZHOU Q, CHONG K L, LIU Y L, LU Z M∗ . Lagrangian coherent structures and their heat-transport mechanism in the turbulent Rayleigh-Bénard convection[J]. Sci. China-Technol. Sci., 2022, 65(4): 966-976. 

[11] WEN X, WANG L P∗ , GUO Z L, SHEN J. An improved discrete unified gas kinetic scheme for simulating compressible natural convection flows[J]. J. Comput. Phys. X, 2021, 11: 100088. (SCI)

[12] 左昊, 沈杰, 卢志明∗ . 有限系统中两组分颗粒凝并问题的异权值蒙特卡罗模拟[J]. 上海大学学报(自然科学 版), 2020, 26(04): 617-627. 

[13] 姜志, 沈杰, 卢志明∗ . 两组分颗粒系统中凝并混合程度问题的多重蒙特卡罗模拟[J]. 上海大学学报(自然科学 版), 2019, 25(02): 245-255. 

[14] JIANG Z, SHEN J, LU Z M∗ . Bivariate Taylor-series expansion method of moment for particle population balance equation in Brownian coagulation[J]. J. Aerosol. Sci., 2017, 114: 94-106. 

[15] HU W C, HUANG W H, SHEN J, LU Z M∗ . The generation of symmetric and asymmetric lumps by a bottom topography[J]. Wave Motion, 2017, 75: 62-71. 

[16] YANG M L, LU Z M∗ , SHEN J. Analytical solutions for composition-dependent coagulation[J]. Math. Probl. Eng., 2016, 2016. 

[17] YANG M L, LU Z M∗ , SHEN J., LIU Y L. Simulating the compositional distribution evolution of drop with the flux model[J]. Procedia Eng., 2015, 102: 1245-1253.