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Results: 1-13 |
Results: 13
DNS of mixing and reaction of two species in a turbulent channel flow: A validation of the conditional moment closure
Authors: Brethouwer, G Nieuwstadt, FTM
Citation: G. Brethouwer et Ftm. Nieuwstadt, DNS of mixing and reaction of two species in a turbulent channel flow: A validation of the conditional moment closure, FLOW TURB C, 66(3), 2001, pp. 209-239
Experiments in turbulent pipe flow with polymer additives at maximum drag reduction
Authors: Ptasinski, PK Nieuwstadt, FTM van den Brule, BHAA Hulsen, MA
Citation: Pk. Ptasinski et al., Experiments in turbulent pipe flow with polymer additives at maximum drag reduction, FLOW TURB C, 66(2), 2001, pp. 159-182
Measurement of the recoalescence flux into the rear of a Taylor bubble
Authors: Delfos, R Rops, CM Kockx, JP Nieuwstadt, FTM
Citation: R. Delfos et al., Measurement of the recoalescence flux into the rear of a Taylor bubble, PHYS FLUIDS, 13(5), 2001, pp. 1141-1150
Numerical and laboratory study of horizontally evolving convective boundary layer. part II: Effects of elevated wind shear and surface roughness
Authors: Fedorovich, E Nieuwstadt, FTM Kaiser, R
Citation: E. Fedorovich et al., Numerical and laboratory study of horizontally evolving convective boundary layer. part II: Effects of elevated wind shear and surface roughness, J ATMOS SCI, 58(6), 2001, pp. 546-560
Numerical and laboratory study of a horizontally evolving convective boundary layer. Part I: Transition regimes and development of the mixed layer
Authors: Fedorovich, E Nieuwstadt, FTM Kaiser, R
Citation: E. Fedorovich et al., Numerical and laboratory study of a horizontally evolving convective boundary layer. Part I: Transition regimes and development of the mixed layer, J ATMOS SCI, 58(1), 2001, pp. 70-86
Large-eddy simulation of the turbulent dispersion of a reactive plume froma point source into a neutral atmospheric boundary layer
Authors: Meeder, JP Nieuwstadt, FTM
Citation: Jp. Meeder et Ftm. Nieuwstadt, Large-eddy simulation of the turbulent dispersion of a reactive plume froma point source into a neutral atmospheric boundary layer, ATMOS ENVIR, 34(21), 2000, pp. 3563-3573
Direct and large-eddy simulation of the transition of two- and three-dimensional plane plumes in a confined enclosure
Authors: Bastiaans, RJM Rindt, CCM Nieuwstadt, FTM van Steenhoven, AA
Citation: Rjm. Bastiaans et al., Direct and large-eddy simulation of the transition of two- and three-dimensional plane plumes in a confined enclosure, INT J HEAT, 43(13), 2000, pp. 2375-2393
On the electric potential induced by a homogeneous magnetic field in a turbulent pipe flow
Authors: Boersma, BJ Nieuwstadt, FTM
Citation: Bj. Boersma et Ftm. Nieuwstadt, On the electric potential induced by a homogeneous magnetic field in a turbulent pipe flow, FLOW TURB C, 62(1), 1999, pp. 29-51
Direct numerical simulation of turbulent mixing of a passive scalar in pipe flow
Authors: Brethouwer, G Boersma, BJ Pourquie, MBJM Nieuwstadt, FTM
Citation: G. Brethouwer et al., Direct numerical simulation of turbulent mixing of a passive scalar in pipe flow, EUR J MEC B, 18(4), 1999, pp. 739-756
On the spatial evolution of a wall-imposed periodic disturbance in pipe Poiseuille flow at Re=3000. Part 1. Subcritical disturbance
Authors: Ma, B van Doorne, CWH Zhang, Z Nieuwstadt, FTM
Citation: B. Ma et al., On the spatial evolution of a wall-imposed periodic disturbance in pipe Poiseuille flow at Re=3000. Part 1. Subcritical disturbance, J FLUID MEC, 398, 1999, pp. 181-224
Direct numerical simulation of a puff and a slug in transitional cylindrical pipe flow
Authors: Shan, H Ma, B Zhang, Z Nieuwstadt, FTM
Citation: H. Shan et al., Direct numerical simulation of a puff and a slug in transitional cylindrical pipe flow, J FLUID MEC, 387, 1999, pp. 39-60
A direct numerical simulation of natural convection between two infinite vertical differentially heated walls scaling laws and wall functions
Authors: Versteegh, TAM Nieuwstadt, FTM
Citation: Tam. Versteegh et Ftm. Nieuwstadt, A direct numerical simulation of natural convection between two infinite vertical differentially heated walls scaling laws and wall functions, INT J HEAT, 42(19), 1999, pp. 3673-3693
Laminar-turbulent transition in pipe flow for Newtonian and non-Newtonian fluids
Authors: Draad, AA Kuiken, GDC Nieuwstadt, FTM
Citation: Aa. Draad et al., Laminar-turbulent transition in pipe flow for Newtonian and non-Newtonian fluids, J FLUID MEC, 377, 1998, pp. 267-312
Risultati: 1-13 |