Application of adaptively refined unstructured grids in DSMC to shock wave simulations
DOI10.1016/J.COMPFLUID.2018.04.026zbMath1410.76142OpenAlexW2802800505WikidataQ129931771 ScholiaQ129931771MaRDI QIDQ720928
Deborah A. Levin, Revathi Jambunathan, Ozgur Tumuklu, Saurabh S. Sawant
Publication date: 18 July 2018
Published in: Computers and Fluids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.compfluid.2018.04.026
AMRMPIrelaxationperformance optimizationslipnon-equilibriumhypersonicsDSMCdouble wedgeweak scalinggas-surface interactionsMorton-Z space filling curveshock wave boundary layer interactionsstrong scaling
Monte Carlo methods (65C05) Shock waves and blast waves in fluid mechanics (76L05) Rarefied gas flows, Boltzmann equation in fluid mechanics (76P05) Particle methods and lattice-gas methods (76M28) Hypersonic flows (76K05)
Related Items (1)
Uses Software
Cites Work
- Implementation of a transient adaptive sub-cell module for the parallel-DSMC code using unstructured grids
- Local adaptive mesh refinement for shock hydrodynamics
- Advanced parallelization strategies using hybrid MPI-CUDA octree DSMC method for modeling flow through porous media
- A parallel implementation of the direct simulation Monte Carlo method
- Robust cut-cell algorithms for DSMC implementations employing multi-level Cartesian grids
- DSMC simulation of hypersonic flows using an improved SBT-TAS technique
- Adaptive kinetic-fluid solvers for heterogeneous computing architectures
- Variable soft sphere molecular model for inverse-power-law or Lennard-Jones potential
- Simple and Efficient Traversal Methods for Quadtrees and Octrees
- Shock Wave-Boundary-Layer Interactions
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