کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
---|---|---|---|---|
762407 | 1462741 | 2012 | 14 صفحه PDF | دانلود رایگان |
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.
► Variety of cut-cell/cut-volume algorithms are completely detailed.
► Tested in 3D multi-level Cartesian grid DSMC code on complex geometries.
► Complex 3D geometries cut from multi-level grid in same time as one DSMC time step.
► Robustness, efficiency, and ease of implementation compared for a variety of methods.
► Manuscript serves as a valuable reference for DSMC code developers.
Journal: Computers & Fluids - Volume 69, 30 October 2012, Pages 122–135