Travis Drayna scite author profile

Aerothermodynamics and hypersonic flows involve complex multi-disciplinary physics, including finite-rate gas-phase kinetics, finite-rate internal energy relaxation, gas-surface interactions with finite-rate oxidation and sublimation, transition to turbulence, large-scale unsteadiness, shock-boundary layer interactions, fluid-structure interactions, and thermal protection system ablation and thermal response. Many of the flows have a large range of length and time scales, requiring large computational grids, implicit time integration, and large solution run times. The University of Minnesota / NASA US3D code was designed for the simulation of these complex, highly-coupled flows. It has many of the features of NASA's well-established DPLR code, but uses unstructured grids and has many advanced numerical capabilities and physical models for multi-physics problems. The main capabilities of the code are described, the physical modeling approaches are discussed, the different types of numerical flux functions and time integration approaches are outlined, and the parallelization strategy is overviewed. Comparisons between US3D and the NASA DPLR code are presented, along with several advanced simulations to illustrate some novel features of the code.

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Unstructured Grid Approaches for Accurate Aeroheating Simulations

Candler

Barnhardt

Drayna

et al. 2007

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A Parallel Unstructured Implicit Solver for Hypersonic Reacting Flow Simulation

2005

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Travis Drayna

Development of a Hybrid Unstructured Implicit Solver for the Simulation of Reacting Flows Over Complex Geometries

Development of the US3D Code for Advanced Compressible and Reacting Flow Simulations

Unstructured Grid Approaches for Accurate Aeroheating Simulations

A Parallel Unstructured Implicit Solver for Hypersonic Reacting Flow Simulation

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