公開日期 | 標題 | 作者 | 來源出版物 | scopus | WOS | 全文 |
2012 | The effects of acoustic streaming on the temperature distribution during focused ultrasound therapy | Solovchuk, M.A.; Sheu, T.W.H.; Thiriet, M.; TONY W. H. SHEU | AIP Conference Proceedings | | | |
2014 | Effects of exchange correlation functional on optical permittivity of gold and electromagnetic responses | Lin, I.-B.; Sheu, T.W.H.; JIA-HAN LI ; TONY W. H. SHEU | Optics Express | 11 | 11 | |
1997 | An element-by-element BICGSTAB iterative method for three-dimensional steady Navier-Stokes equations | Wang, M.M.T.; Sheu, T.W.H.; TONY W. H. SHEU | Journal of Computational and Applied Mathematics | | | |
1999 | Element-by-element parallel computation of incompressible Navier-Stokes equations in three dimensions | Sheu, T.W.H.; Wang, M.M.T.; Tsai, S.F.; TONY W. H. SHEU | SIAM Journal of Scientific Computing | | | |
2020 | Elimination of spurious velocities generated by curvature dependent surface force in finite element flow simulation with mesh-fitted interface | Ivan?i?, F.; Sheu, T.W.H.; Solovchuk, M.; TONY W. H. SHEU | Computer Methods in Applied Mechanics and Engineering | | | |
2004 | Erratum: Three-dimensional simulation of square jets in cross-flow (Physical Review E (2004) 69 (066302)) | Sau, A.; Sheu, T.W.H.; Hwang, R.R.; Yang, W.C.; TONY W. H. SHEU | Physical Review E - Statistical, Nonlinear, and Soft Matter Physics | | | |
2020 | Experimental and Numerical Study on the Temperature Elevation in Tissue during Moxibustion Therapy | Solovchuk, M.; Deng, H.-A.; Sheu, T.W.H.; TONY W. H. SHEU | Evidence-based Complementary and Alternative Medicine | 6 | 5 | |
2006 | Exploration of vortex dynamics for transitional flows in a three-dimensional backward-facing step channel | Sheu, T.W.H.; Rani, H.P.; TONY W. H. SHEU | Journal of Fluid Mechanics | | | |
2002 | Finite element analysis of contaminant transport in groundwater | Sheu, T.W.H.; Chen, Y.H.; TONY W. H. SHEU | Applied Mathematics and Computation | | | |
2002 | Finite element analysis of particle motion in steady inspiratory airflow | Sheu, T.W.H.; Wang, S.K.; Tsai, S.F.; TONY W. H. SHEU | Computer Methods in Applied Mechanics and Engineering | | | |
2007 | Finite element analysis of three-dimensional vortical flow structure and topology inside a carotid bifurcation model | Tsai, S.F.; Sheu, T.W.H.; TONY W. H. SHEU | International Journal of Computational Fluid Dynamics | | | |
1997 | Finite element solution for wave propagation in layered fluids | Sheu, T.W.H.; Fang, C.C.; TONY W. H. SHEU | Journal of Computational Acoustics | | | |
1999 | A finite element study of the blood flow in total cavopulmonary connection | Sheu, T.W.H.; Tsai, S.F.; Hwang, W.S.; TONY W. H. SHEU ; WEI-SHIEN HWANG | Computers and Fluids | 11 | 12 | |
2001 | Finite-Element Analysis of Incompressible Navier-Stokes Equations Involving Exit Pressure Boundary Conditions | Tsai, S.F.; Sheu, T.W.H.; TONY W. H. SHEU | Numerical Heat Transfer, Part B: Fundamentals | | | |
2003 | Finite-element simulation of incompressible fluid flow in an elastic vessel | Chen, H.Y.H.; Sheu, T.W.H.; TONY W. H. SHEU | International Journal for Numerical Methods in Fluids | | | |
2009 | Finite-element simulation of incompressible viscous flows in moving meshes | Sheu, T.W.H.; Hsu, M.C.; TONY W. H. SHEU | Numerical Heat Transfer, Part B: Fundamentals | | | |
2002 | Flow topology in a steady three-dimensional lid-driven cavity | Sheu, T.W.H.; Tsai, S.F.; TONY W. H. SHEU | Computers and Fluids | | | |
2019 | Fluid-Solid conjugate heat transfer modelling using weakly compressible smoothed particle hydrodynamics | Ng, K.C.; Ng, Y.L.; Sheu, T.W.H.; Mukhtar, A.; TONY W. H. SHEU | International Journal of Mechanical Sciences | | | |
2004 | A four-step time splitting scheme for convection-diffusion equation | Lin, R.K.; Sheu, T.W.H.; TONY W. H. SHEU | Numerical Heat Transfer, Part B: Fundamentals | | | |
2019 | The free surface effect on a chemotaxis–diffusion–convection coupling system | Ivan?i?, F.; Sheu, T.W.H.; Solovchuk, M.; TONY W. H. SHEU | Computer Methods in Applied Mechanics and Engineering | | | |