Review of direct numerical simulation of fluid–particle mass, momentum and heat transfer in dense gas–solid flows
This paper reviews the use of direct numerical simulation (DNS) models for the study of
mass, momentum and heat transfer phenomena prevailing in dense gas–solid flows. In …
mass, momentum and heat transfer phenomena prevailing in dense gas–solid flows. In …
Recent developments of the Navier Stokes multi block (NSMB) CFD solver
Y Hoarau, D Pena, JB Vos, D Charbonier… - 54th AIAA Aerospace …, 2016 - arc.aiaa.org
The Navier Stokes Multi Block solver NSMB was initially developed in 1992 at the Swiss
Federal Institute of Technology (EPFL) in Lausanne, and from 1993 onwards in the NSMB …
Federal Institute of Technology (EPFL) in Lausanne, and from 1993 onwards in the NSMB …
Direct numerical simulation of flow and heat transfer in dense fluid–particle systems
In this paper a novel simulation technique is presented to perform Direct Numerical
Simulation (DNS) of fluid flow and heat transfer in dense fluid–particle systems. The unique …
Simulation (DNS) of fluid flow and heat transfer in dense fluid–particle systems. The unique …
Direct numerical simulations of dynamic gas‐solid suspensions
Y Tang, E Peters, JAM Kuipers - AIChE Journal, 2016 - Wiley Online Library
Direct numerical simulation results for gas flow through dynamic suspensions of spherical
particles is reported. The simulations are performed using an immersed boundary method …
particles is reported. The simulations are performed using an immersed boundary method …
A comparison of Eulerian and Lagrangian transport and non-linear reaction algorithms
When laboratory-measured chemical reaction rates are used in simulations at the field-
scale, the models typically overpredict the apparent reaction rates. The discrepancy is …
scale, the models typically overpredict the apparent reaction rates. The discrepancy is …
A composite grid solver for conjugate heat transfer in fluid–structure systems
WD Henshaw, KK Chand - Journal of Computational Physics, 2009 - Elsevier
We describe a numerical method for modeling temperature-dependent fluid flow coupled to
heat transfer in solids. This approach to conjugate heat transfer can be used to compute …
heat transfer in solids. This approach to conjugate heat transfer can be used to compute …
Moving overlapping grids with adaptive mesh refinement for high-speed reactive and non-reactive flow
WD Henshaw, DW Schwendeman - Journal of Computational Physics, 2006 - Elsevier
We consider the solution of the reactive and non-reactive Euler equations on two-
dimensional domains that evolve in time. The domains are discretized using moving …
dimensional domains that evolve in time. The domains are discretized using moving …
On sub-linear convergence for linearly degenerate waves in capturing schemes
A common attribute of capturing schemes used to find approximate solutions to the Euler
equations is a sub-linear rate of convergence with respect to mesh resolution. Purely …
equations is a sub-linear rate of convergence with respect to mesh resolution. Purely …
Block-structured adaptive mesh refinement-theory, implementation and application
R Deiterding - Esaim: Proceedings, 2011 - esaim-proc.org
Structured adaptive mesh refinement (SAMR) techniques can enable cutting-edge
simulations of problems governed by conservation laws. Focusing on the strictly hyperbolic …
simulations of problems governed by conservation laws. Focusing on the strictly hyperbolic …
Parallel computation of three-dimensional flows using overlapping grids with adaptive mesh refinement
WD Henshaw, DW Schwendeman - Journal of Computational Physics, 2008 - Elsevier
This paper describes an approach for the numerical solution of time-dependent partial
differential equations in complex three-dimensional domains. The domains are represented …
differential equations in complex three-dimensional domains. The domains are represented …