论文信息 - Robust cut-cell algorithms for DSMC implementations employing multi-level Cartesian grids

Robust cut-cell algorithms for DSMC implementations employing multi-level Cartesian grids

Abstract Robust cut-cell algorithms are detailed for general multi-level Cartesian grid direct simulation Monte Carlo (DSMC) implementations. Different approaches for each component of the cut-cell algorithms are elaborated and compared, based on time efficiency, robustness, and ease of implementation. Special situations that arise in sorting the surface triangles, calculating the cut-cell volume, and identifying multiple cut-volumes contained in a single Cartesian cell, are handled by the algorithms, and their effects on the overall simulation results are analyzed using test cases. Three-dimensional DSMC simulations are conducted for a Mach number 20.2 N2 gas flowing over a Planetary Probe geometry showing good agreement with experimental heat flux measurements. Rarefied flow over a geometry resembling the MIR Space Station is also conducted, to demonstrate the ability of the proposed cut-cell algorithms to handle complex geometries. The time required to cut the surface meshes from the background Cartesian grids and to calculate the volume of the resulting cut-cells is found to be comparable to the time cost for one DSMC simulation time step for cases considered.

Thomas E. Schwartzentruber | Chonglin Zhang | T. Schwartzentruber | Chonglin Zhang

[1] J. Bonet,et al. An alternating digital tree (ADT) algorithm for 3D geometric searching and intersection problems , 1991 .

[2] J. Allegre,et al. Experimental Rarefied Density Flowfields at Hypersonic Conditions over 70-Degree Blunted Cone , 1997 .

[3] Thomas E. Schwartzentruber,et al. Particle Simulations of Planetary Probe Flows Employing Automated Mesh Refinement , 2011 .

[4] G. Bird. Molecular Gas Dynamics and the Direct Simulation of Gas Flows , 1994 .

[5] James N. Moss,et al. Survey of Blunt Body Flows Including Wakes at Hypersonic Low-Density Conditions , 1997 .

[6] Forrest E. Lumpkin,et al. Application highlights of the DSMC Analysis Code (DAC) software for simulating rarefied flows , 2001 .

[7] G. J. LeBeau,et al. A parallel implementation of the direct simulation Monte Carlo method , 1999 .

[8] M. Berger,et al. Robust and efficient Cartesian mesh generation for component-based geometry , 1998 .

[9] Jean-Claude Lengrand,et al. Experimental Rarefied Aerodynamic Forces at Hypersonic Conditions over 70-Degree Blunted Cone , 1997 .

[10] J. Allegre,et al. Experimental Rarefied Heat Transfer at Hypersonic Conditions over 70-Degree Blunted Cone , 1997 .

[11] Tomas Akenine-Möller. Fast 3D Triangle-Box Overlap Testing , 2001, J. Graphics, GPU, & Game Tools.