FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2808364557> ?p ?o ?g. }

• W2808364557 endingPage "46" @default.
• W2808364557 startingPage "33" @default.
• W2808364557 abstract "The well-known complicated system of non-equilibrium balance equations for a continuous fluid (f) medium needs the new non-Gibbsian model of f-phase to be applicable for description of the heterogeneous porous media (PMs). It should be supplemented by the respective coupled thermal and caloric equations of state (EOS) developed specially for PMs to become adequate and solvable for the irreversible transport f-processes. The set of standard assumptions adopted by the linear (or quasi-linear) non-equilibrium thermodynamics are based on the empirical gradient-caused correlations between flows and forces. It leads, in particular, to the oversimplified stationary solutions for PMs. The most questionable but typical modeling suppositions of the stationary gradient (SG) theory are: 1) the assumption of incompressibility accepted, as a rule, for f-flows; 2) the ignorance of distinctions between the hydrophilic and hydrophobic influence of a porous matrix on the properties; 3) the omission of effects arising due to the concomitant phase intra-porous transitions between the neighboring f-fragments with the sharp differences in densities; 4) the use of exclusively Gibbsian (i.e. homogeneous and everywhere differentiable) description of any f-phase in PM; 5) the very restrictive reduction of the mechanical velocity field to its specific potential form in the balance equation of f-motion as well as of the heat velocity field in the balance equation of internal energy; 6) the neglect of the new specific peculiarities arising due to the study of any non-equilibrium PM in the meso- and nano-scales of a finite-size macroscopic (N,V)-system of discrete particles. This work is an attempt to develop the alternative non-stationary gradient (NSG) model of real irreversible processes in PM. Another aim is to apply it without the above restrictions 1)-6) to the description of f-flows through the obviously non-Gibbsian thin porous medium (TPM). We will suppose that it is composed by two inter-penetrable fractal sf-structures of f-phase (formed by the “mixture” of g- and l-phases termed, in total, interphase) and solid (s) porous matrix termed below s-phase. The permanent influence of humidity and the respective increase of the moisture content in TPM including the unavoidable phenomenon of capillary condensation are the main factors to occur the non-stationary transport f-flows through its texture." @default.
• W2808364557 created "2018-06-21" @default.
• W2808364557 creator A5020157752 @default.
• W2808364557 creator A5035709599 @default.
• W2808364557 creator A5076160405 @default.
• W2808364557 date "2017-11-02" @default.
• W2808364557 modified "2023-10-01" @default.
• W2808364557 title "New Non-Stationary Gradient Model of Heat-Mass-Electric Charge Transfer in Thin Porous Media" @default.
• W2808364557 cites W1481262943 @default.
• W2808364557 cites W1489864863 @default.
• W2808364557 cites W1759061218 @default.
• W2808364557 cites W1973108021 @default.
• W2808364557 cites W1992951438 @default.
• W2808364557 cites W1993849035 @default.
• W2808364557 cites W2001201577 @default.
• W2808364557 cites W2011595499 @default.
• W2808364557 cites W2013498526 @default.
• W2808364557 cites W2031256508 @default.
• W2808364557 cites W2037966705 @default.
• W2808364557 cites W2047132258 @default.
• W2808364557 cites W2060701759 @default.
• W2808364557 cites W2065284930 @default.
• W2808364557 cites W2076924870 @default.
• W2808364557 cites W2080890343 @default.
• W2808364557 cites W2081797237 @default.
• W2808364557 cites W2193557234 @default.
• W2808364557 cites W2320045020 @default.
• W2808364557 cites W2327188366 @default.
• W2808364557 cites W2330257963 @default.
• W2808364557 cites W2477107297 @default.
• W2808364557 cites W2479557379 @default.
• W2808364557 cites W2511775772 @default.
• W2808364557 cites W2558024656 @default.
• W2808364557 cites W94080808 @default.
• W2808364557 doi "https://doi.org/10.15673/ret.v53i5.850" @default.
• W2808364557 hasPublicationYear "2017" @default.
• W2808364557 type Work @default.
• W2808364557 sameAs 2808364557 @default.
• W2808364557 citedByCount "1" @default.
• W2808364557 countsByYear W28083645572021 @default.
• W2808364557 crossrefType "journal-article" @default.
• W2808364557 hasAuthorship W2808364557A5020157752 @default.
• W2808364557 hasAuthorship W2808364557A5035709599 @default.
• W2808364557 hasAuthorship W2808364557A5076160405 @default.
• W2808364557 hasBestOaLocation W28083645571 @default.
• W2808364557 hasConcept C105569014 @default.
• W2808364557 hasConcept C121332964 @default.
• W2808364557 hasConcept C121864883 @default.
• W2808364557 hasConcept C131157278 @default.
• W2808364557 hasConcept C134306372 @default.
• W2808364557 hasConcept C137109543 @default.
• W2808364557 hasConcept C178790620 @default.
• W2808364557 hasConcept C185592680 @default.
• W2808364557 hasConcept C202615002 @default.
• W2808364557 hasConcept C2777423268 @default.
• W2808364557 hasConcept C29310469 @default.
• W2808364557 hasConcept C33923547 @default.
• W2808364557 hasConcept C47458137 @default.
• W2808364557 hasConcept C57879066 @default.
• W2808364557 hasConcept C62520636 @default.
• W2808364557 hasConcept C6648577 @default.
• W2808364557 hasConcept C97355855 @default.
• W2808364557 hasConceptScore W2808364557C105569014 @default.
• W2808364557 hasConceptScore W2808364557C121332964 @default.
• W2808364557 hasConceptScore W2808364557C121864883 @default.
• W2808364557 hasConceptScore W2808364557C131157278 @default.
• W2808364557 hasConceptScore W2808364557C134306372 @default.
• W2808364557 hasConceptScore W2808364557C137109543 @default.
• W2808364557 hasConceptScore W2808364557C178790620 @default.
• W2808364557 hasConceptScore W2808364557C185592680 @default.
• W2808364557 hasConceptScore W2808364557C202615002 @default.
• W2808364557 hasConceptScore W2808364557C2777423268 @default.
• W2808364557 hasConceptScore W2808364557C29310469 @default.
• W2808364557 hasConceptScore W2808364557C33923547 @default.
• W2808364557 hasConceptScore W2808364557C47458137 @default.
• W2808364557 hasConceptScore W2808364557C57879066 @default.
• W2808364557 hasConceptScore W2808364557C62520636 @default.
• W2808364557 hasConceptScore W2808364557C6648577 @default.
• W2808364557 hasConceptScore W2808364557C97355855 @default.
• W2808364557 hasIssue "5" @default.
• W2808364557 hasLocation W28083645571 @default.
• W2808364557 hasOpenAccess W2808364557 @default.
• W2808364557 hasPrimaryLocation W28083645571 @default.
• W2808364557 hasRelatedWork W1978655387 @default.
• W2808364557 hasRelatedWork W2002370723 @default.
• W2808364557 hasRelatedWork W2011094861 @default.
• W2808364557 hasRelatedWork W2061505299 @default.
• W2808364557 hasRelatedWork W2269009012 @default.
• W2808364557 hasRelatedWork W2591938545 @default.
• W2808364557 hasRelatedWork W2791390748 @default.
• W2808364557 hasRelatedWork W2808364557 @default.
• W2808364557 hasRelatedWork W4297670798 @default.
• W2808364557 hasRelatedWork W1678465796 @default.
• W2808364557 hasVolume "53" @default.
• W2808364557 isParatext "false" @default.
• W2808364557 isRetracted "false" @default.
• W2808364557 magId "2808364557" @default.
• W2808364557 workType "article" @default.