Applying deep reinforcement learning to active flow control in weakly turbulent conditions F Ren, J Rabault, H Tang Physics of Fluids 33 (3), 037121, 2021 | 126 | 2021 |
Towards the design of synthetic-jet actuators for full-scale flight conditions - Part 1: the fluid mechanics of synthetic-jet actuators S Zhong, M Jabbal, H Tang, L Garcillan, F Guo, N Wood, C Warsop Flow, turbulence and combustion 78 (3), 283-307, 2007 | 119 | 2007 |
Control of wakes and vortex-induced vibrations of a single circular cylinder using synthetic jets C Wang, H Tang, F Duan, SCM Yu Journal of Fluids and Structures 60, 160-179, 2016 | 113 | 2016 |
Deep reinforcement learning in fluid mechanics: A promising method for both active flow control and shape optimization J Rabault, F Ren, W Zhang, H Tang, H Xu Journal of Hydrodynamics 32 (2), 234-246, 2020 | 109 | 2020 |
Active control of vortex-induced vibration of a circular cylinder using machine learning F Ren, C Wang, H Tang Physics of Fluids 31 (9), 093601, 2019 | 100 | 2019 |
On the use of synthetic jet actuator arrays for active flow separation control H Tang, P Salunkhe, Y Zheng, J Du, Y Wu Experimental Thermal and Fluid Science 57, 1-10, 2014 | 93 | 2014 |
离心泵内流场的数值模拟 唐辉, 何枫 水泵技术, 3-8, 2002 | 91 | 2002 |
MHD thermosolutal natural convection and entropy generation of Carreau fluid in a heated enclosure with two inner circular cold cylinders, using LBM GHR Kefayati, H Tang International Journal of Heat and Mass Transfer 126, 508-530, 2018 | 84 | 2018 |
Active flow control using machine learning: A brief review F Ren, H Hu, H Tang Journal of Hydrodynamics 32 (2), 247-253, 2020 | 83 | 2020 |
Vortex roll-up criterion for synthetic jets J Zhou, H Tang, S Zhong AIAA Journal 47 (5), 1252-1262, 2009 | 80 | 2009 |
Active control of vortex-induced vibrations of a circular cylinder using windward-suction-leeward-blowing actuation C Wang, H Tang, SCM Yu, F Duan Physics of Fluids 28 (5), 053601, 2016 | 73 | 2016 |
2D numerical study of circular synthetic jets in quiescent flows H Tang, S Zhong Aeronautical Journal 109 (1092), 89-97, 2005 | 70 | 2005 |
Simulation of natural convection and entropy generation of MHD non-Newtonian nanofluid in a cavity using Buongiorno's mathematical model GHR Kefayati, H Tang International Journal of Hydrogen Energy 42 (27), 17284–17327, 2017 | 66 | 2017 |
Towards the design of synthetic-jet actuators for full-scale flight conditions - Part 2: low-dimensional performance prediction models and actuator design method H Tang, S Zhong, M Jabbal, L Garcillan, F Guo, N Wood, C Warsop Flow, turbulence and combustion 78 (3), 309-329, 2007 | 66 | 2007 |
Unsteady behavior of a sweeping impinging jet: Time-resolved particle image velocimetry measurements X Wen, Y Liu, H Tang Experimental Thermal and Fluid Science 96, 111-127, 2018 | 61 | 2018 |
Multi-objective optimization for centrifugal compressor of mini turbojet engine S Guo, F Duan, H Tang, SC Lim, MS Yip Aerospace Science and Technology 39, 414-425, 2014 | 56 | 2014 |
Three-dimensional lattice Boltzmann simulation on thermosolutal convection and entropy generation of Carreau-Yasuda fluids GHR Kefayati, H Tang International Journal of Heat and Mass Transfer 131, 346-364, 2019 | 55 | 2019 |
Double-diffusive natural convection and entropy generation of Carreau fluid in a heated enclosure with an inner circular cold cylinder (Part I: Heat and mass transfer) GHR Kefayati, H Tang International Journal of Heat and Mass Transfer 120, 731-750, 2018 | 55 | 2018 |
Incompressible flow model of synthetic jet actuators H Tang, S Zhong AIAA Journal 44 (4), 908-912, 2006 | 52 | 2006 |
Control of vortex-induced vibration using a pair of synthetic jets: Influence of active lock-on C Wang, H Tang, SCM Yu, F Duan Physics of Fluids 29 (8), 083602, 2017 | 50 | 2017 |