Maximum intensity of rarefaction shock waves for dense gases

Guardone, Alberto; Zamfirescu, Calin; Colonna, Piero

doi:10.1017/s0022112009991716

Cited by 29 publications

(20 citation statements)

References 45 publications

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“…It is worth noting that the curve L ÃÃ d is the locus of the unperturbed states for which exactly one rarefaction shock wave is admissible. This curve was first obtained by Zamfirescu, Guardone, and Colonna 11,12 and, since the velocity of the unique admissible rarefaction shock obtainable for u 0 2 L ÃÃ d equals the sound velocity in both the unperturbed and perturbed states, this curve was named double sonic locus (DSL) by those authors (see also Ref. 48).…”

Section: Case D £ D Bzt (Bzt Fluids)mentioning

confidence: 94%

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Admissible shock waves and shock-induced phase transitions in a van der Waals fluid

et al. 2011

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A complete classification of shock waves in a van der Waals fluid is undertaken. This is in order to gain a theoretical understanding of those shock-related phenomena as observed in real fluids which cannot be accounted for by the ideal gas model. These relate to admissibility of rarefaction shock waves, shock-splitting phenomena, and shock-induced phase transitions. The crucial role played by the nature of the gaseous state before the shock (the unperturbed state), and how it affects the features of the shock wave are elucidated. A full description is given of the characteristics of shock waves propagating in a van der Waals fluid. The strength of these shock waves may range from weak to strong. The study is carried out by means of the theory of hyperbolic systems supported by numerical calculations.

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Section: Case D £ D Bzt (Bzt Fluids)mentioning

confidence: 94%

“…6,[8][9][10][11][12] Propagation of a rarefaction shock wave is impossible in the ideal gas model, where only (and all) the compressive shock waves can exist and be stable. Thus, in the terminology of the theory of hyperbolic systems, only compressive shocks are admissible in ideal gases.…”

Section: Introductionmentioning

confidence: 99%

Admissible shock waves and shock-induced phase transitions in a van der Waals fluid

et al. 2011

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“…The initial conditions (IC) for the experiment (and for the simulation) are prescribed according to the theory described in [10], to maximize the Mach number of the rarefaction shock wave and facilitate the wave detection. The maximum achievable precision in controlling the temperature and pressure values in the charge tube has been estimated from the measurement instruments and hardware specifications to be 0.4% for the pressure and 0.1% for the temperature.…”

Section: Sources Of Uncertainty : Initial Conditions Of the Experimentsmentioning

confidence: 99%

Computation of tail probabilities for non-classical gasdynamic phenomena

Razaaly

Congedo

2017

J. Phys.: Conf. Ser.

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Abstract. This paper presents a novel method for computing the tail probability of a given quantity of interest by using only a low number of evaluations of the computer model, representing the problem of interest under uncertainties. This method is then applied to the study of rarefaction shock waves (RSW) in a dense-gas shock tube. It is well-known in literature that the prediction of a RSW is highly sensitive to uncertainties on the initial flow conditions. The objective of this work is to compute a very accurate estimation of the RSW probability of occurrence in a shock tube configuration.

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“…BZT fluids have drawn some attention in the last fifteen years due to their potential applications in industry (see, e.g. Cinnella 2008;Guardone et al 2010). Unlike a regular fluid, a BZT fluid might condense on isentropic compression 1 .…”

Section: Introductionmentioning

confidence: 99%

Neutron star collapse and gravitational waves with a non-convex equation of state

Aloy

Ibáñez

Sanchis-Gual

et al. 2019

Monthly Notices of the Royal Astronomical Society

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The thermodynamical properties of the equation of state (EoS) of high-density matter (above nuclear saturation density) and the possible existence of exotic states such as phase transitions from nuclear/hadronic matter into quark-gluon plasma, or the appearance of hyperons, may critically influence the stability and dynamics of compact relativistic stars. From a theoretical point of view, establishing the existence of those states requires the analysis of the "convexity" of the EoS. We show indications of the existence of regions in the dense-matter EoS where the thermodynamics may be non-convex as a result of a non-monotonic dependence of the sound speed with the rest-mass density. When this happens, non-conventional dynamics may develop. In this paper we investigate the effects of a phenomenological, non-convex EoS on the equilibrium structure of stable compact stars and on the dynamics of unstable neutron stars that collapse gravitationally to black holes, both for spherically symmetric and uniformlyrotating configurations. We show how the dynamics of the collapse with a non-convex EoS departs from the convex case, leaving distinctive imprints on the gravitational waveforms. The astrophysical significance of these results for microphysical EoSs is discussed.

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Maximum intensity of rarefaction shock waves for dense gases

Cited by 29 publications

References 45 publications

Admissible shock waves and shock-induced phase transitions in a van der Waals fluid

Admissible shock waves and shock-induced phase transitions in a van der Waals fluid

Computation of tail probabilities for non-classical gasdynamic phenomena

Neutron star collapse and gravitational waves with a non-convex equation of state

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