Effects of Critical Fluctuations on the Thermodynamic and Transport Properties of Supercritical Fluids

“…To describe fluids and fluid mixtures in the much larger region in which the critical fluctuations affect the thermodynamic properties, so-called crossover equations-of-state have to be employed (cf. [1]). Thermodynamics of binary fluid mixtures in the asymptotic critical region are most elegantly described by the theory of Griffiths and Wheeler [31].…”

“…[1,2]). The transport properties related to heat and mass transport in binary mixtures are no exception.…”

“…The mutual diffusivity, for example, vanishes at a critical point while the Ludwig-Soret coefficient, describing the transport of matter in response to a temperature gradient, diverges as a critical point is approached. Since transport coefficients can have anomalous values in a large region around a critical point [1,2] a knowledge of their critical behavior is important for many technical and scientific applications. In particular, thermal diffusion in the critical region is important in such fields as supercritical-fluid chemistry, the treatment of hazardous waste, geochemistry of hydrocarbon reservoirs, and the study of the kinetics of phase separation (cf.…”

“…The asymptotic critical region, however, is usually much smaller than the region in which critical enhancements are observed experimentally (cf. [1,2]). The behavior of the transport coefficients in this so-called crossover region cannot be described in terms of simple power laws and depends on details of the physical system under consideration.…”

Thermodiffusion in the Critical Region

“…To describe fluids and fluid mixtures in the much larger region in which the critical fluctuations affect the thermodynamic properties, so-called crossover equations-of-state have to be employed (cf. [1]). Thermodynamics of binary fluid mixtures in the asymptotic critical region are most elegantly described by the theory of Griffiths and Wheeler [31].…”

“…[1,2]). The transport properties related to heat and mass transport in binary mixtures are no exception.…”

“…The mutual diffusivity, for example, vanishes at a critical point while the Ludwig-Soret coefficient, describing the transport of matter in response to a temperature gradient, diverges as a critical point is approached. Since transport coefficients can have anomalous values in a large region around a critical point [1,2] a knowledge of their critical behavior is important for many technical and scientific applications. In particular, thermal diffusion in the critical region is important in such fields as supercritical-fluid chemistry, the treatment of hazardous waste, geochemistry of hydrocarbon reservoirs, and the study of the kinetics of phase separation (cf.…”

“…The asymptotic critical region, however, is usually much smaller than the region in which critical enhancements are observed experimentally (cf. [1,2]). The behavior of the transport coefficients in this so-called crossover region cannot be described in terms of simple power laws and depends on details of the physical system under consideration.…”

Thermodiffusion in the Critical Region

“…2,3 Due to the presence of large fluctuations near the critical point, some singular phenomena including the critical opalescence can occur. 4 The first non-classical model with effective critical exponents for describing the phase behavior of the binary mixtures was developed by Leung and Griffiths 5 and subsequently modified by Moldover, Rainwater and their co-workers [6][7][8] to obtain a satisfactory prediction of the thermo-physical properties for many binary mixtures. Thereafter, for fluid mixtures a scaled EoS was proposed for analyzing the asymmetric fluid-phase behavior asymptotically close to the critical point using the principle of isomorphism.…”

Isomorphic Viscosity Equation of State for Binary Fluid Mixtures

Membranes