Thermodynamics of Negative Pressures in Liquids

Imre, Attila R.; Martinás, Katalin; Rebelo, Luís Paulo N.

doi:10.1515/jnet.1998.23.4.351

Cited by 70 publications

(63 citation statements)

References 58 publications

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“…Vapor-liquid stability curves follow the same order but they are always at positive pressure since only condensed phases can reach negative pressures [8]. All these seven stability curves i.e.…”

Section: Introductionmentioning

confidence: 79%

Stability limits of n-nonane calculated from molecular dynamics interface simulations

Braun

Imre

Kraska

2013

The Journal of Chemical Physics

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Based on molecular dynamics simulation of the vapor-liquid interface the classical thermodynamic spinodal for n-nonane is estimated using an earlier developed method. The choice of n-nonane as investigated molecule originates from the question whether a deviation from the spherical symmetry of a molecule affects the prediction of the stability limit data. As a result we find that the estimated stability limit data for n-nonane are consistent within the experimental data available for the homologous series of the n-alkanes. It turns out that the slight alignment of the molecules parallel to the interface reported in the literature does not affect the method of transferring interface properties to the bulk phase stability limit.2

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Section: Introductionmentioning

confidence: 79%

Stability limits of n-nonane calculated from molecular dynamics interface simulations

Braun

Imre

Kraska

2013

The Journal of Chemical Physics

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“…It is a well-known practice to avoid overheating (and the explosion-like boiling, following it) to put some bubble seed into the liquid, like a few pieces of spongelike pumice (or boiling-) stones. In these nucleation processes -especially in homogeneous nucleation -time is also an important factor; a liquid can endure high overheating/stretching for a small period of time [22,23,24,25]. Therefore one cannot draw a well-defined line as nucleation limit onto the phase diagram ( Figure 1); the line drawn by us is only for demonstration.…”

Section: Liquid-vapour Phase Transition In the Metastable Regionmentioning

confidence: 99%

Two-phase flow model for energetic proton beam induced pressure waves in mercury target systems in the planned European Spallation Source

et al. 2008

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Abstract. Two-phase flow calculations are presented to investigate the thermo-hydraulical effects of the interaction between 300 kJ proton pulses (2 ms long, 1.3 GeV) with a closed mercury loop which can be considered as a model system of the target of the planned European Spallation Source(ESS) facility. The two-fluid model consists of six first-order partial differential equations that present one dimensional mass momentum and energy balances for mercury vapour and liquid phases are capable to describe quick transients like cavitation effects or shock waves. The absorption of the proton beam is represented as instantaneous heat source in the energy balance equations. Densities and internal energies of the mercury liquid-vapour system are calculated from van der Waals equation, and the general method how to obtain such properties is also presented. A second order accurate high-resolution shock-capturing numerical scheme is applied with different kinds of limiters in the numerical calculations. Our analysis show that even 75 degree temperature heat shocks cannot cause considerable cavitation effects in mercury in 2ms long pulses PACS. 47.55Bx Cavitation, -47.55Kf Multiphase and particle-laden flows -47.90a+ Other topics in fluid dynamics

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“…Negative pressures for critical points correspond to demixing of a liquid into two other liquid phases. Fluids at negative pressures are metastable or unstable with respect to the liquid at the same temperature and not in tension (Imre et al, 1998, Debenedetti 1996. All of the critical points at positive pressures are stable unless indicated otherwise.…”

Section: Resultsmentioning

confidence: 99%

Interval Mathematics Applied to Critical Point Transitions

Stradi

2005

RMTA

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The determination of critical points of mixtures is important for both practical and theoretical reasons in the modeling of phase behavior, especially at high pressure. The equations that describe the behavior of complex mixtures near critical points are highly nonlinear and with multiplicity of solutions to the critical point equations. Interval arithmetic can be used to reliably locate all the critical points of a given mixture. The method also verifies the nonexistence of a critical point if a mixture of a given composition does not have one. This study uses an interval Newton/Generalized Bisection algorithm that provides a mathematical and computational guarantee that all mixture critical points are located. The technique is illustrated using several example problems. These problems involve cubic equation of state models; however, the technique is general purpose and can be applied in connection with other nonlinear problems.Keywords: Critical Points, Interval Analysis, Computational Methods. ResumenLa determinación de puntos críticos de mezclas es importante tanto por razones prácticas como teóricas en el modelamiento del comportamiento de fases, especialmente a presiones altas. Las ecuaciones que describen el comportamiento de mezclas complejas cerca del punto crítico son significativamente no lineales y con multiplicidad de soluciones para las ecuaciones del punto crítico. Aritmética de intervalos puede ser usada para localizar con confianza todos los puntos críticos de una mezcla dada. El método también verifica la no-existencia de un punto crítico si una mezcla de composición dada no tiene dicho punto. Este estudio usa un algoritmo denominado Newton-Intervalo/Bisección-Generalizada que provee una garantía matemática y computacional de que todos los puntos críticos de una mezcla han sido localizados. Estos problemas cubren los modelos de ecuaciones cbicas de estado; sin embargo, la técnica es de propósito general y puede ser aplicada en el caso de otros problemas no lineales.

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Thermodynamics of Negative Pressures in Liquids

Cited by 70 publications

References 58 publications

Stability limits of n-nonane calculated from molecular dynamics interface simulations

Stability limits of n-nonane calculated from molecular dynamics interface simulations

Two-phase flow model for energetic proton beam induced pressure waves in mercury target systems in the planned European Spallation Source

Interval Mathematics Applied to Critical Point Transitions

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