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W2141011727 abstract "The influence of high levels of wall cooling on the stability of hypervelocity boundary layers is investigated. Such conditions are relevant to experiments in high-enthalpy impulse facilities, where the wall temperature is much smaller than the free-stream temperature, as well as to some real flight scenarios. Some effects of wall cooling are well known, for instance, the stabilization of the first mode and destabilization of the second mode. In this paper, several new instability phenomena are investigated that arise only for high Mach numbers and high levels of wall cooling. In particular, certain unstable modes can travel supersonically with respect to the free stream, which changes the nature of the dispersion curve and leads to instability over a much wider band of frequencies. The cause of this phenomenon, the range of parameters for which it occurs and its implications for boundary layer stability are examined. Additionally, growth rates are systematically reported for a wide range of conditions relevant to high-enthalpy impulse facilities, and the stability trends in terms of Mach number and wall temperature are mapped out. Thermal non-equilibrium is included in the analysis and its influence on the stability characteristics of flows in impulse facilities is assessed." @default.
W2141011727 created "2016-06-24" @default.
W2141011727 creator A5050276867 @default.
W2141011727 creator A5056633099 @default.
W2141011727 date "2015-08-05" @default.
W2141011727 modified "2023-10-11" @default.
W2141011727 title "Stability of highly cooled hypervelocity boundary layers" @default.
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W2141011727 doi "https://doi.org/10.1017/jfm.2015.358" @default.
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