The critical parameters and congruent vapor-liquid diagram of ten metallic alkali and alkaline earth fluids and one H-bond organic (methanol)

“…This result has been obtained in the present work for Ar, CO 2 , H 2 O and any other f-system without appeals to an absence of a singular CP. Moreover, the well-studied experimentally and reliably approximated by the fundamental NIST-EOS real SCF-systems are adequately described in the present work by PCS-form of [6][7][8] for SCF-region performed in terms of two actual substance-dependent PCS-criteria [8,18]: the crit-ical compressibility factor c Z and the critical Riedel's factor c Ri :…”

“…The aim is to emphasize their principle difference, since both FT-ones: FT1 and FT2 admit the existence of heterogeneous fluctuational NGF-phases at both sub-and supercritical states. Below c T , the presence of a such subcritical NGF-phase termed the interphase was confirmed for many substances by our previous investigations [8,9,17,18]. We have used for its presence the term of congruent vapor-liquid (CVL)-diagram to distinct it from the traditional VLE-diagram constructed, exclusively, for GPhs i.e.…”

“…(23) They are widely discussible in the predictive ZL-methodology [13,16,18]. It is interesting to note that some authors [19] have used even the rather controversial interpretation of the standard equilibrium abbreviation PVT (physical-vapor transport) to emphasize the hypothesized dynamical nature of criticality.…”

Supercritical heterogeneous nanostructure of fluids. Part 1. Diagram of fluctuation transitions in non-gibbsian phases

“…This result has been obtained in the present work for Ar, CO 2 , H 2 O and any other f-system without appeals to an absence of a singular CP. Moreover, the well-studied experimentally and reliably approximated by the fundamental NIST-EOS real SCF-systems are adequately described in the present work by PCS-form of [6][7][8] for SCF-region performed in terms of two actual substance-dependent PCS-criteria [8,18]: the crit-ical compressibility factor c Z and the critical Riedel's factor c Ri :…”

“…The aim is to emphasize their principle difference, since both FT-ones: FT1 and FT2 admit the existence of heterogeneous fluctuational NGF-phases at both sub-and supercritical states. Below c T , the presence of a such subcritical NGF-phase termed the interphase was confirmed for many substances by our previous investigations [8,9,17,18]. We have used for its presence the term of congruent vapor-liquid (CVL)-diagram to distinct it from the traditional VLE-diagram constructed, exclusively, for GPhs i.e.…”

“…(23) They are widely discussible in the predictive ZL-methodology [13,16,18]. It is interesting to note that some authors [19] have used even the rather controversial interpretation of the standard equilibrium abbreviation PVT (physical-vapor transport) to emphasize the hypothesized dynamical nature of criticality.…”

Supercritical heterogeneous nanostructure of fluids. Part 1. Diagram of fluctuation transitions in non-gibbsian phases

“…Its simulated snapshots look like the certain decorated lattice with three types of nano-cells filled by gl-, ll-and ig-contents. To obtain such a supposedly inter-percolation structure we used the finite-range, well-determined by CP-parameters of a real substance LJ/FT-potential [16]. The advantage of FT-methodology is also explainable by the revealed local correlation between the density order parameter (simulated by FT-model) ∆ ρ and the specific (or molar) entropy disorder parameter s ∆ (introduced in our pervious works [17][18][19][20]).…”

“…The change of caloric vdW-functions calculated by Eqs (14)(15)(16)(17). for the entire CSH-cycle (a) and its sub-cycles I and II (b).…”

Supercritical heterogeneous nanostructure of fluids. Part 2. Its potential impact on creation of coupled stirlings with intermediate regeneration of heat

Thermal Hysteresis of Mesoscopic Phase Transitions in Fluid and Solid Metals: Critical Point and Global Diagram of Tantalum