会议论文详细信息
1st International Seminar on Non-Ideal Compressible-Fluid Dynamics for Propulsion & Power
Shock-induced energy transfers in dense gases
物理学;力学
Alferez, Nicolas^1 ; Touber, Emile^1
Department of Mechanical Engineering, Imperial College London, London
SW7 2AZ, United Kingdom^1
关键词: Compressibility effects;    Compressible euler equations;    Homogeneous turbulence;    Isotropic turbulence;    Linear interaction analysis;    Shock configuration;    Transmission coefficients;    Turbulence kinetic energy;   
Others  :  https://iopscience.iop.org/article/10.1088/1742-6596/821/1/012019/pdf
DOI  :  10.1088/1742-6596/821/1/012019
学科分类:力学,机械学
来源: IOP
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【 摘 要 】

Dense gases are characterised by molecules featuring large numbers of active degrees of freedom (quantified by the cv/R ratio). The isentropes in such gases have the distinct property of following rather closely the isotherms (the two become identical in the limit of cv/R going to infinity). Near the liquid-vapour critical point, this makes the isentropes very shallow and possibly concave (in the pressure-specific volume diagram). Whilst shallow isentropes are desirable when designing expanders (i.e. a large specific-volume increase may be achieved for virtually no pressure drop), could such extreme compressibility effects modify turbulence in a profound manner? This paper discusses two particularly interesting aspects: (i) shock-refraction properties (i.e. the way a shock can redistribute the energy of incoming perturbations), (ii) enstrophy production in homogeneous turbulence. A linear interaction analysis (LIA) is conducted on the shock configuration for which the incoming perturbation is decomposed into linear modes of the compressible Euler equations. The transmission coefficients relative to each eigen modes are solved analytically and results are compared against fully non-linear compressible direct numerical simulation reproducing the weak perturbation of an isolated two-dimensional compression shock wave. The linear analysis is found to be capable of predicting the shock-induced redistribution of the energy of the incoming perturbation between the different eigen modes. Non-ideal gas effects are observed both analytically and numerically with especially an unusual selective response for some particular choice of incoming Mach number. A two-dimensional isotropic turbulence configuration is then numerically investigated for the case of an inviscid compressible dense-gas flow close to the liquid-vapour critical point. Strong non-ideal-gas effects on enstrophy production are observed with the formation of eddy shocklets. In both cases non-convex isentropes close to the liquid-vapour critical point are extremely influential in letting both the shock and the turbulence redistribute any supply of turbulence kinetic energy in ways which are simply not observable in ideal gases. This will hopefully spark enthusiasm amongst turbulence modellers (and their end users?).

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