B
B. van Leer
Researcher at University of Michigan
Publications - 18
Citations - 7752
B. van Leer is an academic researcher from University of Michigan. The author has contributed to research in topics: Euler equations & Multigrid method. The author has an hindex of 10, co-authored 18 publications receiving 7231 citations.
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Towards the ultimate conservative difference scheme V. A second-order sequel to Godunov's method
TL;DR: In this article, a second-order extension of the Lagrangean method is proposed to integrate the equations of ideal compressible flow, which is based on the integral conservation laws and is dissipative, so that it can be used across shocks.
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Comparison of Finite Volume Flux Vector Splittings for the Euler Equations
TL;DR: In this article, a flux-splitting method in generalized coordinates was developed and applied to quasi-one-dim ensional transonic flow in a nozzle and two-dimensional subsonic, transonic, and supersonic flow over airfoils.
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Deformation and Drag Properties of Round Drops Subjected to Shock-Wave Disturbances
TL;DR: In this paper, the effects of liquid viscosity, liquid/gas density ratio, and drop Reynolds number on the deformation and breakup properties of round drops subjected to shock-waved disturbances were investigated for conditions where effects of drop evaporation were small.
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Riemann-problem and level-set approaches for homentropic two-fluid flow computations
TL;DR: In this paper, a finite-volume method for the computation of compressible flows of two immiscible fluids at very different densities is presented, which is based on a linearized, two-fluid Osher scheme, allowing for flux computations in the case of different fluids left and right of a cell face.
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Radiative effects in radiative shocks in shock tubes
R. P. Drake,F. W. Doss,Ryan G. McClarren,Marvin L. Adams,Nancy M. Amato,Derek Bingham,Chuan-Chih Chou,C.A. Di-Stefano,Krzysztof J. Fidkowski,Bruce Fryxell,Tamas I. Gombosi,Michael Grosskopf,James Paul Holloway,B. van der Holst,C. M. Huntington,Smadar Karni,Christine Krauland,Carolyn Kuranz,Edward W. Larsen,B. van Leer,Bani K. Mallick,D. C. Marion,William R. Martin,Jim E. Morel,E.S. Myra,Vijay Nair,Kenneth G. Powell,Lawrence Rauchwerger,Philip L. Roe,Erica M. Rutter,Igor V. Sokolov,Quentin F. Stout,Ben Torralva,Gabor Toth,Katsuyo Thornton,A. J. Visco +35 more
TL;DR: In this article, the physical relations that determine the primary features of such shocks and the details and impact of radiative energy transfer in such systems are discussed, including the creation of high-density shocked layers.