Optimized acoustic bias plus rank-1 entropy correction in characteristic reconstruction improves efficiency and removes the need for contact-discontinuity detectors in compressible CFD.
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The paper develops a wave-structure-based multidimensional upwinding algorithm for compressible multiphase flows that tailors reconstruction schemes to acoustic, vorticity, and entropy waves plus interfaces to improve accuracy and reduce artifacts.
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Wave-appropriate reconstruction of compressible flows: physics-constrained acoustic dissipation and rank-1 entropy wave correction
Optimized acoustic bias plus rank-1 entropy correction in characteristic reconstruction improves efficiency and removes the need for contact-discontinuity detectors in compressible CFD.
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Wave or Physics-Appropriate Multidimensional Upwinding Approach for Compressible Multiphase Flows
The paper develops a wave-structure-based multidimensional upwinding algorithm for compressible multiphase flows that tailors reconstruction schemes to acoustic, vorticity, and entropy waves plus interfaces to improve accuracy and reduce artifacts.