Symmetry-preserving discretization of turbulent flow R Verstappen, AEP Veldman Journal of Computational Physics 187 (1), 343-368, 2003 | 769 | 2003 |
Proper orthogonal decomposition and low-dimensional models for driven cavity flows W Cazemier, R Verstappen, AEP Veldman Physics of fluids 10 (7), 1685-1699, 1998 | 430 | 1998 |
Minimum-dissipation models for large-eddy simulation W Rozema, HJ Bae, P Moin, R Verstappen Physics of Fluids 27 (8), 2015 | 209 | 2015 |
Symmetry-preserving discretization of Navier–Stokes equations on collocated unstructured grids FX Trias, O Lehmkuhl, A Oliva, CD Pérez-Segarra, R Verstappen Journal of Computational Physics 258, 246-267, 2014 | 179 | 2014 |
When does eddy viscosity damp subfilter scales sufficiently? R Verstappen Journal of Scientific Computing 49 (1), 94-110, 2011 | 150 | 2011 |
Direct numerical simulation of turbulence at lower costs R Verstappen, AEP Veldman Journal of engineering mathematics 32, 143-159, 1997 | 128 | 1997 |
Spectro-consistent discretization of Navier-Stokes: a challenge to RANS and LES R Verstappen, AEP Veldman Floating, Flowing, Flying: Pieter J. Zandbergen’s Life as Innovator …, 1998 | 119 | 1998 |
On restraining the production of small scales of motion in a turbulent channel flow R Verstappen Computers & Fluids 37 (7), 887-897, 2008 | 90 | 2008 |
Physical consistency of subgrid-scale models for large-eddy simulation of incompressible turbulent flows MH Silvis, RA Remmerswaal, R Verstappen Physics of Fluids 29 (1), 2017 | 76 | 2017 |
A new subgrid characteristic length for turbulence simulations on anisotropic grids FX Trias, A Gorobets, MH Silvis, RWCP Verstappen, A Oliva Physics of Fluids 29 (11), 2017 | 60 | 2017 |
Parameter-free symmetry-preserving regularization modeling of a turbulent differentially heated cavity FX Trias, R Verstappen, A Gorobets, M Soria, A Oliva Computers & Fluids 39 (10), 1815-1831, 2010 | 52 | 2010 |
A new symmetry‐preserving Cartesian‐grid method for computing flow past arbitrarily shaped objects M Dröge, R Verstappen International journal for numerical methods in fluids 47 (8‐9), 979-985, 2005 | 50 | 2005 |
A symmetry-preserving discretisation and regularisation model for compressible flow with application to turbulent channel flow W Rozema, JC Kok, R Verstappen, AEP Veldman Journal of Turbulence 15 (6), 386-410, 2014 | 47 | 2014 |
A symmetry-preserving second-order time-accurate PISO-based method EMJ Komen, JA Hopman, EMA Frederix, FX Trias, RWCP Verstappen Computers & Fluids 225, 104979, 2021 | 42 | 2021 |
A dynamic eddy-viscosity model based on the invariants of the rate-of-strain R Verstappen, S Bose, J Lee, H Choi, P Moin Proceedings of the Summer Program, 183-192, 2010 | 39 | 2010 |
On the construction of discrete filters for symmetry-preserving regularization models FX Trias, R Verstappen Computers & Fluids 40 (1), 139-148, 2011 | 38 | 2011 |
How much eddy dissipation is needed to counterbalance the nonlinear production of small, unresolved scales in a large-eddy simulation of turbulence? R Verstappen Computers & Fluids 176, 276-284, 2018 | 34 | 2018 |
Numerical scale separation in large-eddy simulation R Verstappen, W Rozema, HJ Bae Proceedings of the Summer Program, 417-426, 2014 | 26 | 2014 |
Direct numerical simulations of turbulent flow in a driven cavity R Verstappen, JG Wissink, W Cazemier, AEP Veldman Future Generation Computer Systems 10 (2-3), 345-350, 1994 | 25 | 1994 |
Low-dissipation simulation methods and models for turbulent subsonic flow W Rozema, RWCP Verstappen, AEP Veldman, JC Kok Archives of Computational Methods in Engineering 27, 299-330, 2020 | 24 | 2020 |