A sharp interface Cartesian grid method for viscous simulation of shocked particle-laden flows
From MaRDI portal
Publication:5072882
DOI10.1080/10618562.2017.1351610OpenAlexW2735840486MaRDI QIDQ5072882
Oishik Sen, H. S. Udaykumar, Pratik Das, Gustaaf B. Jacobs
Publication date: 5 May 2022
Published in: International Journal of Computational Fluid Dynamics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1080/10618562.2017.1351610
ghost fluid methodcompressible flowssharp interface methodsviscous effectsshock-particle interaction
Related Items
A Sharp-Interface Immersed Boundary Method for High-Speed Compressible Flows ⋮ Simulation of interaction between shocks and particle cloud using a second-order conservative sharp interface method ⋮ Direct numerical simulation of flow past a transversely rotating sphere up to a Reynolds number of 300 in compressible flow ⋮ A novel sharp interface immersed boundary framework for viscous flow simulations at arbitrary Mach number involving complex and moving boundaries ⋮ Ghost-Fluid-Based Sharp Interface Methods for Multi-Material Dynamics: A Review ⋮ Direct numerical simulation of subsonic, transonic and supersonic flow over an isolated sphere up to a Reynolds number of 1000 ⋮ A particle resolved simulation approach for studying shock interactions with moving, colliding solid particles
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Evaluation of convergence behavior of metamodeling techniques for bridging scales in multi-scale multimaterial simulation
- Sharp interface simulations with local mesh refinement for multi-material dynamics in strongly shocked flows
- Effect of particle clusters on carrier flow turbulence: a direct numerical simulation study
- Implicit-explicit time integration of a high-order particle-in-cell method with hyperbolic divergence cleaning
- Adaptive mesh refinement for hyperbolic partial differential equations
- A sharp interface immersed boundary method for compressible viscous flows
- A high-order WENO-Z finite difference based particle-source-in-cell method for computation of particle-laden flows with shocks
- Unsteady drag on a sphere by shock wave loading
- Fronts propagating with curvature-dependent speed: Algorithms based on Hamilton-Jacobi formulations
- A non-oscillatory Eulerian approach to interfaces in multimaterial flows (the ghost fluid method)
- Shock wave interaction with a cloud of particles
- Shock wave interactions with particles and liquid fuel droplets
- Ghost fluid method for strong shock impacting on material interface.
- A partial differential equation approach to multidimensional extrapolation.
- Initiation and development of separated flow behind a circular cylinder in a supersonic stream
- A simple immersed boundary method for compressible flow simulation around a stationary and moving sphere
- Hybrid upwind methods for the simulation of unsteady shock-wave diffraction over a cylinder
- Modeling of the unsteady force for shock-particle interaction
- The effect of porosity on shock interaction with a rigid, porous barrier
- An accurate Cartesian grid method for viscous incompressible flows with complex immersed boundaries
- An improved level set method for incompressible two-phase flows
- Parallel, sharp interface Eulerian approach to high-speed multi-material flows
- An efficient conservative cut-cell method for rigid bodies interacting with viscous compressible flows
- A high-order multi-zone cut-stencil method for numerical simulations of high-speed flows over complex geometries
- A conservative embedded boundary method for an inviscid compressible flow coupled with a fragmenting structure
- Wind tunnel measurements of sphere drag at supersonic speeds and low Reynolds numbers
- Effect of turbulence on the drag and lift of a particle
- Computational analysis of the deformability of leukocytes modeled with viscous and elastic structural components
- Total variation diminishing Runge-Kutta schemes
- L<scp>EVEL</scp> S<scp>ET</scp> M<scp>ETHODS FOR</scp> F<scp>LUID</scp> I<scp>NTERFACES</scp>
- Gas turbulence modulation in the pneumatic conveying of massive particles in vertical tubes
- Explosive dispersal of solid particles
- A sharp interface Cartesian grid method for simulating flows with complex moving boundaries
This page was built for publication: A sharp interface Cartesian grid method for viscous simulation of shocked particle-laden flows
