Liu hard sphere equation of state: Difference between revisions

Revision as of 01:21, 9 November 2020

Hongqin Liu proposed a correction to the C-S EOS which improved accuracy by almost two order of magnitude ^[1]:

Z={\frac {1+\eta +\eta ^{2}-{\frac {8}{13}}\eta ^{3}-\eta ^{4}+{\frac {1}{2}}\eta ^{5}}{(1-\eta )^{3}}}.

The conjugate virial coefficient correlation is given by:

B_{n}=0.9423n^{2}+1.28846n-1.84615,n>3.

The excess Helmholtz free energy is given by:

A^{ex}={\frac {A-A^{id}}{Nk_{b}}}={\frac {188\eta -126\eta ^{2}-13\eta ^{4}}{52(1-\eta )^{2}}}-{\frac {5}{13}}ln(1-\eta ).

The isothermal compressibility is given by:

k_{T}=(\eta {\frac {dZ}{d\eta }})^{-1}\rho ^{-1}.

where

{\frac {dZ}{d\eta }}={\frac {4+4\eta -{\frac {11}{13}}\eta ^{2}-{\frac {52}{13}}\eta ^{3}+{\frac {7}{2}}\eta ^{4}-\eta ^{5}}{(1-\eta )^{4}}}.

@@ Line 15: / Line 15: @@
 : <math>
 A^{ex} = \frac{ A - A^{id}}{Nk_b}= \frac{ 188\eta - 126\eta^2 - 13\eta^4 }{52(1-\eta)^2} - \frac{5}{13} ln(1-\eta).
+</math>
+The isothermal compressibility is given by:
+: <math>
+k_T =  (\eta\frac{ dZ}{d\eta})^{-1} \rho^{-1}.
+</math>
+where
+: <math>
+\frac{ dZ}{d\eta} =  \frac{ 4 + 4\eta - \frac {11}{13} \eta^2 -  \frac{52}{13}\eta^3 + \frac {7}{2}\eta^4 - \eta^5 }{(1-\eta)^4 }.
 </math>