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Hiroaki Nishikawa
Hiroaki Nishikawa
Email verificata su nianet.org - Home page
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Citata da
Citata da
Anno
Very simple, carbuncle-free, boundary-layer-resolving, rotated-hybrid Riemann solvers
H Nishikawa, K Kitamura
Journal of Computational Physics 227 (4), 2560-2581, 2008
2372008
Comparison of node-centered and cell-centered unstructured finite-volume discretizations: viscous fluxes
B Diskin, JL Thomas, EJ Nielsen, H Nishikawa, JA White
AIAA journal 48 (7), 1326-1338, 2010
2042010
Beyond interface gradient: a general principle for constructing diffusion schemes
H Nishikawa
40th fluid dynamics conference and exhibit, 5093, 2010
1232010
A first-order system approach for diffusion equation. I: Second-order residual-distribution schemes
H Nishikawa
Journal of Computational Physics 227 (1), 315-352, 2007
1162007
A first-order system approach for diffusion equation. II: Unification of advection and diffusion
H Nishikawa
Journal of Computational Physics 229 (11), 3989-4016, 2010
842010
Robust and accurate viscous discretization via upwind scheme–I: Basic principle
H Nishikawa
Computers & Fluids 49 (1), 62-86, 2011
602011
New-generation hyperbolic Navier-Stokes schemes: O (1/h) speed-up and accurate viscous/heat fluxes
H Nishikawa
20th AIAA Computational Fluid Dynamics Conference, 3043, 2011
542011
First-, second-, and third-order finite-volume schemes for diffusion
H Nishikawa
Journal of Computational Physics 256, 791-805, 2014
532014
Hyperbolic Navier-Stokes solver for three-dimensional flows
Y Nakashima, N Watanabe, H Nishikawa
54th AIAA Aerospace Sciences Meeting, 1101, 2016
452016
First, second, and third order finite-volume schemes for advection–diffusion
H Nishikawa
Journal of Computational Physics 273, 287-309, 2014
442014
First, second, and third order finite-volume schemes for advection–diffusion
H Nishikawa
Journal of Computational Physics 273, 287-309, 2014
442014
Alternative formulations for first-, second-, and third-order hyperbolic Navier-Stokes schemes
H Nishikawa
22nd AIAA Computational Fluid Dynamics Conference, 2451, 2015
432015
On high-order fluctuation-splitting schemes for Navier-Stokes equations
H Nishikawa, P Roe
Computational Fluid Dynamics 2004: Proceedings of the Third International …, 2006
412006
On carbuncles and other excrescences
P Roe, H Nishikawa, F Ismail, L Scalabrin
17th AIAA Computational Fluid Dynamics Conference, 4872, 2005
362005
Two ways to extend diffusion schemes to navier-stokes schemes: Gradient formula or upwind flux
H Nishikawa
20th AIAA Computational Fluid Dynamics Conference, 3044, 2011
342011
Reconstructed discontinuous Galerkin methods for linear advection–diffusion equations based on first-order hyperbolic system
J Lou, L Li, H Luo, H Nishikawa
Journal of Computational Physics 369, 103-124, 2018
332018
Grid convergence for three dimensional benchmark turbulent flows
B Diskin, WK Anderson, MJ Pandya, CL Rumsey, J Thomas, Y Liu, ...
2018 AIAA Aerospace Sciences Meeting, 1102, 2018
312018
Third-order inviscid and second-order hyperbolic Navier-Stokes schemes for three-dimensional inviscid and viscous flows
Y Liu, H Nishikawa
46th AIAA Fluid Dynamics Conference, 3969, 2016
312016
Recent advances in agglomerated multigrid
H Nishikawa, B Diskin, J Thomas, D Hammond
51st AIAA Aerospace Sciences Meeting Including the New Horizons Forum and …, 2013
302013
A critical study of agglomerated multigrid methods for diffusion on highly-stretched grids
JL Thomas, B Diskin, H Nishikawa
Computers & fluids 41 (1), 82-93, 2011
302011
Il sistema al momento non può eseguire l'operazione. Riprova più tardi.
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