A volume-of-fluid based simulation method for wave impact problems KMT Kleefsman, G Fekken, AEP Veldman, B Iwanowski, B Buchner Journal of computational physics 206 (1), 363-393, 2005 | 951 | 2005 |
Symmetry-preserving discretization of turbulent flow R Verstappen, AEP Veldman Journal of Computational Physics 187 (1), 343-368, 2003 | 770 | 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 |
New, quasi-simultaneous method to calculate interacting boundary layers AEP Veldman AIAA journal 19 (1), 79-85, 1981 | 266 | 1981 |
The numerical simulation of liquid sloshing on board spacecraft AEP Veldman, J Gerrits, R Luppes, JA Helder, JPB Vreeburg Journal of computational physics 224 (1), 82-99, 2007 | 234 | 2007 |
Dynamics of liquid-filled spacecraft J Gerrits, AEP Veldman Journal of Engineering Mathematics 45, 21-38, 2003 | 166 | 2003 |
Direct numerical simulation of turbulence at lower costs R Verstappen, AEP Veldman Journal of engineering mathematics 32, 143-159, 1997 | 128 | 1997 |
Simulation of green water loading using the Navier-Stokes equations G Fekken, AEP Veldman, B Buchner EPRINTS-BOOK-TITLE, 1999 | 119 | 1999 |
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 |
The influence of vessel wall elasticity and peripheral resistance on the carotid artery flow wave form: a CFD model compared to in vivo ultrasound measurements NM Maurits, GE Loots, AEP Veldman Journal of Biomechanics 40 (2), 427-436, 2007 | 97 | 2007 |
Glottal flow through a two-mass model: comparison of Navier–Stokes solutions with simplified models MP De Vries, HK Schutte, AEP Veldman, GJ Verkerke The Journal of the Acoustical Society of America 111 (4), 1847-1853, 2002 | 88 | 2002 |
Playing with nonuniform grids AEP Veldman, K Rinzema Journal of engineering mathematics 26 (1), 119-130, 1992 | 88 | 1992 |
Simulation of capillary flow with a dynamic contact angle S Van Mourik, AEP Veldman, ME Dreyer Microgravity-Science and Technology 17, 87-93, 2005 | 74 | 2005 |
Bifurcation analysis of incompressible flow in a driven cavity by the Newton–Picard method G Tiesinga, FW Wubs, AEP Veldman Journal of Computational and Applied Mathematics 140 (1-2), 751-772, 2002 | 63 | 2002 |
Anti Roll Tank Simulations with a Volume Of Fluid (VOF) based Navier-Stokes Solver EFG Van Daalen, KMT Kleefsman, J Gerrits, HR Luth, AEP Veldman Twenty-Third Symposium on Naval Hydrodynamics, 457-473, 2001 | 63 | 2001 |
A simple interaction law for viscous–inviscid interaction AEP Veldman Journal of Engineering Mathematics 65 (4), 367-383, 2009 | 61 | 2009 |
Axisymmetric liquid sloshing under low-gravity conditions AEP Veldman, MES Vogels Acta Astronautica 11 (10-11), 641-649, 1984 | 56 | 1984 |
On local relaxation methods and their application to convection-diffusion equations EFF Botta, AEP Veldman Journal of Computational Physics 48 (1), 127-149, 1982 | 54 | 1982 |
A numerical method for the calculation of laminar, incompressible boundary layers with strong viscous-inviscid interaction AEP Veldman NLR-TR 79023 U, 1979 | 53 | 1979 |
Extreme wave impact on offshore platforms and coastal constructions AEP Veldman, R Luppes, T Bunnik, RHM Huijsmans, B Duz, B Iwanowski, ... International Conference on Offshore Mechanics and Arctic Engineering 44397 …, 2011 | 51 | 2011 |