Universal Scaling of Acoustic and Thermoacoustic Waves in Compressible Fluids
Mario Tindaro Migliorino, Carlo Scalo

TL;DR
This paper develops a universal scaling framework for acoustic and thermoacoustic waves in compressible fluids, validated through simulations across various fluids and wave conditions, enabling consistent comparison of wave phenomena.
Contribution
The authors derive a set of reference scaling parameters that unify the analysis of acoustic and thermoacoustic waves across different fluids and conditions, extending classic acoustic scaling.
Findings
Scaling collapse achieved for diverse fluids and wave types.
Validated against high-resolution Navier-Stokes simulations.
Applicable up to shock wave strengths of 4.27.
Abstract
We have derived the set of reference scaling parameters yielding collapse of isentropic acoustic and thermoacoustic (or heat-release-induced) waves across different pure compressible fluids with an assigned equation of state. The resulting reference pressure and velocity are consistent with classic acoustic scaling. The reference temperature and heat release rate need to be expressed in terms of the isobaric thermal expansion coefficient to ensure collapse of all thermo-fluid-dynamic fluctuations across all fluids. The proposed scaling is extended to non-isentropic waves and verified against data from highly-resolved one-dimensional Navier-Stokes simulations. Conditions tested include freely propagating isentropic acoustic waves and thermoacoustic compression waves up to shock strength of 4.27, for six different supercritical fluids in states ranging from compressible…
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Taxonomy
TopicsCombustion and flame dynamics · Wind and Air Flow Studies · Phase Equilibria and Thermodynamics
See pages 1-10 of arXiv_submission.pdf
