Thermodynamic identities and fundamental relationships
Chemical-engineering thermodynamics: definitions and fundamental laws
Article REF: J1025 V3
Thermodynamic identities and fundamental relationships
Chemical-engineering thermodynamics: definitions and fundamental laws

Authors : Romain PRIVAT, Jean-Noël JAUBERT

Publication date: February 10, 2022 | Lire en français

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4. Thermodynamic identities and fundamental relationships

4.1 Divariant systems (uniform closed systems of constant composition)

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4.1.1 Degrees of freedom and Gibbs' phase rule

Consider a system in stable equilibrium. It is essential to know the minimum number of state variables that must be specified in order to determine the values of all other state variables.

To be specific, let’s assume we have a first system containing one kilogram of oxygen at temperature T, pressure P, and volume V, with a refractive index of i R...

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