Published November 2, 2020 | Version v1
Dataset Open

Shock Tube Problem

Creators

  • 1. LIMSI, CNRS

Contributors

Researcher:

  • 1. Arts & Métiers

Description

Data basis of the 2D shock tube problem for four Reynolds numbers. Converged results are obtained by using the One-Step high-order Monocity Preserving scheme proposed by Daru and Tenaud in [Daru V, Tenaud C. High order one-step monotonicity preserving schemes for unsteady flow calculations. J Comput Phys 2004;193:563–594]. 

These present grid-converged results of the 2D shock tube problem may serve as reference solutions, and by considering the Reynolds number range, is an appropriate test-case for validation of high-resolution schemes.

Files

ShockTube_TestCase.zip

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Additional details

References

  • Daru, V. and Tenaud C. Numerical simulation of the viscous shock tube problem by using a high resolution monotonicity-preserving scheme. 38(3): 664-676.