A New Thermodynamic Model to Approximate Properties of Subcritical Liquids

Sánchez Orgaz, Susana; González Fernández, M. Celina; Varela Díez, Fernando; Rodríguez Laguna, Javier

Publicación:
A New Thermodynamic Model to Approximate Properties of Subcritical Liquids

Archivos

Varela_Diez_Fernando_A_new_Thermodynamic_Mode.pdf (1001.36 KB)

Fecha

2023-06-29

Autores

Sánchez Orgaz, Susana

González Fernández, M. Celina

Varela Díez, Fernando

Rodríguez Laguna, Javier

Derechos de acceso

info:eu-repo/semantics/openAccess

Editor

MDPI

Resumen

In order to obtain the thermodynamic properties of compressed liquids, it is usual to consider them as incompressible systems, since liquids and solids are well represented by this thermodynamic model. Within this model, there are two usual hypotheses that can be derived in two different submodels: the strictly incompressible (SI) model, which supposes a constant specific volume 𝑣=𝑣0, and a more general model, called temperature-dependent incompressible (TDI) model, which relates a specific volume to temperature, 𝑣=𝑣(𝑇). But, usually, this difference ends here in the thermal equation of state, and only the SI model was developed for caloric and entropic equations. The aim of this work is to provide a complete formulation for the TDI model and show where it can be advantageously used rather than the SI model. The study concludes that the proposed model outperforms the traditional model in the study of subcritical liquid. One conceivable utilization of this model is its integration into certain thermodynamic calculation software packages (e.g., EES), which integrate the more elementary SI model into its code for certain incompressible substances.

Palabras clave

classical thermodynamics, incompressible substance models

Centro

E.T.S. de Ingenieros Industriales

Departamento

Ingeniería Energética

Publicación:
A New Thermodynamic Model to Approximate Properties of Subcritical Liquids

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Publicación: A New Thermodynamic Model to Approximate Properties of Subcritical Liquids

Archivos

Fecha

Autores

Editor/a

Director/a

Tutor/a

Coordinador/a

Prologuista

Revisor/a

Ilustrador/a

Derechos de acceso

Título de la revista

ISSN de la revista

Título del volumen

Editor

Proyectos de investigación

Unidades organizativas

Número de la revista

Resumen

Descripción

Categorías UNESCO

Palabras clave

Citación

Centro

Departamento

Grupo de investigación

Grupo de innovación

Programa de doctorado

Cátedra

Handle

DOI

Colecciones

Publicación:
A New Thermodynamic Model to Approximate Properties of Subcritical Liquids