| Flapping wing aerodynamics: progress and challenges MF Platzer, KD Jones, J Young, JCS Lai AIAA journal 46 (9), 2136-2149, 2008 | 654 | 2008 |
| Details of insect wing design and deformation enhance aerodynamic function and flight efficiency J Young, SM Walker, RJ Bomphrey, GK Taylor, ALR Thomas Science 325 (5947), 1549-1552, 2009 | 498 | 2009 |
| A review of progress and challenges in flapping foil power generation J Young, JCS Lai, MF Platzer Progress in aerospace sciences 67, 2-28, 2014 | 392 | 2014 |
| Oscillation frequency and amplitude effects on the wake of a plunging airfoil J Young, JCS Lai AIAA journal 42 (10), 2042-2052, 2004 | 332 | 2004 |
| Reynolds number, thickness and camber effects on flapping airfoil propulsion MA Ashraf, J Young, JCS Lai Journal of Fluids and structures 27 (2), 145-160, 2011 | 216 | 2011 |
| Numerical analysis of an oscillating-wing wind and hydropower generator MA Ashraf, J Young, JCS Lai, MF Platzer AIAA journal 49 (7), 1374-1386, 2011 | 189 | 2011 |
| Mechanisms influencing the efficiency of oscillating airfoil propulsion J Young, JCS Lai AIAA journal 45 (7), 1695-1702, 2007 | 181 | 2007 |
| Numerical simulation of fully passive flapping foil power generation J Young, MA Ashraf, JCS Lai, MF Platzer AIAA journal 51 (11), 2727-2739, 2013 | 139 | 2013 |
| An immersed boundary method for fluid–structure interaction with compressible multiphase flows L Wang, GMD Currao, F Han, AJ Neely, J Young, FB Tian Journal of Computational Physics 346, 131-151, 2017 | 109 | 2017 |
| Vortex lock-in phenomenon in the wake of a plunging airfoil J Young, JCS Lai AIAA journal 45 (2), 485-490, 2007 | 109 | 2007 |
| Numerical simulation of the unsteady aerodynamics of flapping airfoils J Young University of New South Wales, Australian Defence Force Academy, School of …, 2005 | 107 | 2005 |
| Oscillation frequency and amplitude effects on plunging airfoil propulsion and flow periodicity MA Ashraf, J Young, JCS Lai AIAA journal 50 (11), 2308-2324, 2012 | 96 | 2012 |
| An immersed boundary-lattice Boltzmann method for fluid-structure interaction problems involving viscoelastic fluids and complex geometries J Ma, Z Wang, J Young, JCS Lai, Y Sui, FB Tian Journal of Computational Physics 415, 109487, 2020 | 94 | 2020 |
| A novel geometry-adaptive Cartesian grid based immersed boundary–lattice Boltzmann method for fluid–structure interactions at moderate and high Reynolds numbers L Xu, FB Tian, J Young, JCS Lai Journal of Computational Physics 375, 22-56, 2018 | 86 | 2018 |
| Effects of wing shape, aspect ratio and deviation angle on aerodynamic performance of flapping wings in hover A Shahzad, FB Tian, J Young, JCS Lai Physics of Fluids 28 (11), 2016 | 81 | 2016 |
| Improving power-extraction efficiency of a flapping plate: From passive deformation to active control FB Tian, J Young, JCS Lai Journal of Fluids and Structures 51, 384-392, 2014 | 81 | 2014 |
| Development of a new oscillating-wing wind and hydropower generator M Platzer, MA Ashraf, J Young, J Lai 47th AIAA Aerospace Sciences Meeting including the New Horizons Forum and …, 2009 | 74 | 2009 |
| A numerical study of fish adaption behaviors in complex environments with a deep reinforcement learning and immersed boundary–lattice Boltzmann method Y Zhu, FB Tian, J Young, JC Liao, JCS Lai Scientific Reports 11 (1), 1691, 2021 | 69 | 2021 |
| Renewable hydrogen production using sailing ships MF Platzer, N Sarigul-Klijn, J Young, MA Ashraf, JCS Lai Journal of Energy Resources Technology 136 (2), 021203, 2014 | 64 | 2014 |
| Simulation and parameter variation of flapping-wing motion based on dragonfly hovering J Young, JCS Lai, C Germain AIAA journal 46 (4), 918-924, 2008 | 64 | 2008 |
Fang-Bao TianAssociate Professor, University of New South WalesEmail verificata su unsw.edu.au