GARRABOS, Yves; LE NEINDRE, Bernard; WUNENBURGER, Régis; LECOUTRE-CHABOT, Carole; BEYSENS, Daniel

doi:10.1023/A:1016333918357

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GARRABOS, Yves
Institut de Chimie de la Matière Condensée de Bordeaux [ICMCB]
ESEME : Équipe du Supercritique pour l'Environnement, les Matériaux et l'Espace : Équipe commune CEA-CNRS (2000-2014)

LE NEINDRE, Bernard
Laboratoire d'Ingénierie des Matériaux et des Hautes Pressions [LIMHP]

WUNENBURGER, Régis
Institut de Chimie de la Matière Condensée de Bordeaux [ICMCB]
ESEME : Équipe du Supercritique pour l'Environnement, les Matériaux et l'Espace : Équipe commune CEA-CNRS (2000-2014)

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International Journal of Thermophysics. 2002, vol. 23, n° 4, p. 997-1011

Springer Verlag

English Abstract

Close to the liquid gas critical point, the linear treatment of the symmetrical one-component Phi4 model to observe the fluid-restricted universality of the subclass of pure fluids is reversed. The comparison with the fitting results obtained from the recent applications of the crossover description to CO2, CH4, C2H4, C2H6, R134a, SF6, and H2O confirms that the dimensionless characteristic two scale factors involved in this description are: (a) the critical compressibility factor and (b) the slope at the critical point of the reduced potential \tfrac{P}{T} \tfrac{T_c}{P_c} along the critical isochore. For the two-phase domain along the critical isochore, a precise formulation for the extension range of the fluid-restricted universality is given in terms of the reduced scaling size ℓ^{*−}=\tfrac{ξ^−}{a_c} of the critical density fluctuations, expressed as a function of the dilated scaling field which measures the distance to the critical point below Tc. The explicit definition of the microscopic length scale a_c=(\tfrac{k_B T_c}{P_c})^{\tfrac{1}{3}}, which characterizes the short-range of the microscopic interaction, gives a correlative estimation of the crossover domain when xi- sim ac.Read less <

English Keywords

Critical phenomena

Scaling factors

Gas-liquid critical point

Gas-liquid coexistence curve

Equation of state

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Universal scaling form of the equation of state of a critical pure fluid

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