Equations of state: Difference between revisions

Latest revision as of 01:34, 1 June 2021

Equations of state are generally expressions that relate the macroscopic observables, or state variables, such as pressure, $p$ , volume, $V$ , and temperature, $T$ .

General[edit]

Virial equations of state[edit]

Semi-empirical equations of state[edit]

Naturally, there is the ideal gas equation. However, one of the first to describe realistic substances was the famous van der Waals equation of state. Since then, many semi-empirical equations have been developed, often in a similar vein to the van der Waals equation of state, each trying to give better estimations of the many gasses and/or liquids that are often of industrial interest.

Other methods[edit]

Model systems[edit]

Equations of state for idealised models:

Interesting reading[edit]

Books

"Equations of State for Fluids and Fluid Mixtures", Eds. J. V. Sengers, R. F. Kayser, C. J. Peters, and H. J. White Jr., Elsevier (2000) ISBN 0-444-50384-6

@@ Line 1: / Line 1: @@
+'''Equations of state''' are generally expressions that relate the macroscopic observables, or ''state variables'', such as  [[pressure]], <math>p</math>, volume, <math>V</math>, and [[temperature]], <math>T</math>.
 ==General==
 *[[Common bulk modulus point]]
 *[[Law of corresponding states]]
 *[[Linear isothermal regularity]]
+*[[Maxwell's equal area construction]]
 *[[Tait-Murnaghan relation]]
 *[[Zeno line]]
 ==Virial equations of state==
 *[[Virial equation of state]]
 *[[Second virial coefficient]]
 *[[Virial coefficients of model systems]]
-==Empirical equations of state==
+==Semi-empirical equations of state==
-*[[Equation of State: Ideal Gas|Ideal Gas]]
+Naturally, there is the [[Equation of State: Ideal Gas|ideal gas equation]]. However, one of the first to describe realistic substances was the famous [[van der Waals equation of state]]. Since then, many semi-empirical equations have been developed, often in a similar vein to the van der Waals equation of state, each trying to give better estimations of the many
-*[[van der Waals equation of state]]
+gasses and/or liquids that are often of industrial interest.
-*[[Beattie-Bridgeman equation of state]]
+{{columns-list|3|
-*[[Benedict, Webb and Rubin equation of state]]
+*[[Amagat equation of state |Amagat]]
-*[[Berthelot equation of state]]
+*[[Antoine equation of state |Antoine]]
-*[[Clausius equation of state]]
+*[[Baonza equation of state |Baonza]]
-*[[Dieterici equation of state]]
+*[[BACK equation of state |BACK]]
-*[[Elliott, Suresh, and Donohue  equation of state]]
+*[[Battelli equation of state |Battelli]]
+*[[Beattie-Bridgeman equation of state |Beattie-Bridgeman]]
+*[[Benedict, Webb and Rubin equation of state |Benedict, Webb, and Rubin]]
+*[[Berthelot equation of state |Berthelot]]
+*[[Birch-Murnaghan equation of state |Birch-Murnaghan]]
+*[[Boltzmann equation|Boltzmann]]
+*[[Boynton and Bramley equation of state |Boynton and Bramley]]
+*[[Brillouin equation of state |Brillouin]]
+*[[Clausius equation of state |Clausius]]
+*[[Cole equation of state |Cole]]
+*[[Dalton's law|Dalton]]
+*[[BACK equation of state |DIBACK]]
+*[[Dieterici equation of state |Dieterici]]
+*[[Dupré equation of state |Dupré]]
+*[[Elliott, Suresh, and Donohue  equation of state |Elliott, Suresh, and Donohue]]
+*[[Fouché equation of state |Fouché]]
+*[[Goebel equation of state |Goebel]]
+*[[Hirn equation of state |Hirn]]
+*[[Holzapfel equation of state |Holzapfel]]
+*[[Jäger equation of state |Jäger]]
+*[[Kam equation of state |Kam]]
+*[[Kumari-Dass equation of state |Kumari-Dass]]
+*[[Lagrange equation of state |Lagrange]]
+*[[Leduc equation of state |Leduc]]
 *[[Linear isothermal regularity]]
-*[[Peng and Robinson equation of state]]
+*[[Lorentz equation of state |Lorenz]]
-*[[Redlich-Kwong equation of state]]
+*[[Mie potential|Mie]]
-*[[Wohl equation of state]]
+*[[BACK equation of state |MOBACK]]
-*[[Water equation of state]]
+*[[Mohsen-Nia, Modarress and Mansoori equation of state |Mohsen-Nia, Modarress, and Mansoori]]
-====General reading====
+*[[Murnaghan equation of state |Murnaghan]]
+*[[Natanson equation of state |Natanson]]
+*[[BACK equation of state |NIK]]
+*[[Onnes equation of state |Onnes]]
+*[[Peczalski equation of state |Peczalski]]
+*[[Peng and Robinson equation of state |Peng and Robinson]]
+*[[Planck equation of state |Planck]]
+*[[Porter equation of state |Porter]]
+*[[BACK equation of state |QUABACK]]
+*[[Rankine equation of state |Rankine]]
+*[[Recknagel equation of state |Recknagel]]
+*[[Redlich-Kwong equation of state |Redlich-Kwong]]
+*[[Reinganum equation of state |Reinganum]]
+*[[Rose-Vinet (Universal) equation of state |Rose-Vinet]]
+*[[Sarrau equation of state |Sarrau]]
+*[[Schiller equation of state |Schiller]]
+*[[Schrieber equation of state |Schrieber]]
+*[[Smoluchowski equation|Smoluchowski]]
+*[[Starkweather equation of state |Starkweather]]
+*[[Stiffened equation of state |Stiffened]]
+*[[Tait equation of state |Tait]]
+*[[Thiesen equation of state |Thiesen]]
+*[[Tillotson equation of state |Tillotson]]
+*[[Tumlirz equation of state |Tumlirz]]
+*[[Twu-Sim-Tassone equation of state |Twu-Sim-Tassone]]
+*[[van der Waals equation of state |van der Waals]]
+*[[Walter equation of state |Walter]]
+*[[Wohl equation of state |Wohl]]
+*[[Phase diagrams of water |Water equation of state]]
+}}
+==Other methods==
+*[[ASOG (Analytical Solution of Groups)]]
+*[[UNIFAC (Universal Functional Activity Coefficient)]]
 ==Model systems==
 Equations of state for [[idealised models]]:
@@ Line 35: / Line 93: @@
 *[[Equations of state for the triangular well model | Triangular well model]]
 *[[Equations of state for hard spheres]]
+*[[Equations of state for crystals of hard spheres]]
 *[[Equations of state for hard sphere mixtures]]
 *[[Equations of state for hard disks]]
 *[[Hard ellipsoid equation of state]]
 *[[Lennard-Jones equation of state]]
-==Top-5 most viewed equations of state==
+*[[Fused hard sphere chains#Equation of state | Fused hard sphere chains]]
-{{Equations of state}}
+*[[Tetrahedral hard sphere model#Equation of state|Tetrahedral hard sphere model]]
+==See also==
+*[[Pair stress approximation]]
+*[[Scaled-particle theory]]
 ==Interesting reading==
 *[http://dx.doi.org/10.1088/0034-4885/7/1/312 James A. Beattie and Walter H. Stockmayer "Equations of state", Reports on Progress in Physics '''7''' pp. 195-229 (1940)]
-*[http://dx.doi.org/10.1021/ie50663a005 K. K. Shah and G. Thodos "A Comparison of Equations of State", Industrial & Engineering Chemistry '''57''' pp. 30 - 37 (1965)]
+*[http://dx.doi.org/10.1021/ie50663a005 K. K. Shah and G. Thodos "A Comparison of Equations of State", Industrial & Engineering Chemistry '''57''' pp. 30-37 (1965)]
 *[http://dx.doi.org/10.1088/0034-4885/28/1/306 J. S. Rowlinson "The equation of state of dense systems", Reports on Progress in Physics '''28''' pp. 169-199  (1965)]
+'''Books'''
+*"Equations of State for Fluids and Fluid Mixtures", Eds. J. V. Sengers, R. F. Kayser, C. J. Peters, and H. J. White Jr., Elsevier (2000) ISBN 0-444-50384-6
+[[Category: Results]]

Equations of state: Difference between revisions

Latest revision as of 01:34, 1 June 2021

Contents

General[edit]

Virial equations of state[edit]

Semi-empirical equations of state[edit]

Other methods[edit]

Model systems[edit]

See also[edit]

Interesting reading[edit]

Navigation menu

Equations of state: Difference between revisions

Latest revision as of 01:34, 1 June 2021

General[edit]

Virial equations of state[edit]

Semi-empirical equations of state[edit]

Other methods[edit]

Model systems[edit]

See also[edit]

Interesting reading[edit]

Navigation menu

Search