Fused hard sphere chains: Difference between revisions

Revision as of 22:03, 12 January 2009

In the fused hard sphere chain model the molecule is built up form a string of overlapping hard sphere sites, each of diameter $\sigma$ .

An effective number of monomers can be applied to the fused hard sphere chain model by using the relarion (Ref. 4 Eq. 2.18)

m_{\rm {effective}}={\frac {[1+(m-1)L^{*}]^{3}}{[1+(m-1)L^{*}(3-L^{*2})/2]^{2}}}

where m is the number of monomer units in the model, and $L^{*}=L/\sigma$ is the reduced bond length.

The volume of the fused hard sphere chain is given by (Ref. 5 Eq. 13)

V_{\rm {FHSC}}={\frac {1}{6}}\pi \sigma ^{3}\left(1+{\frac {m-1}{2}}L^{*}\left(3-L^{*2}\right)\right)

and the surface area is given by (Ref. 5 Eq. 12)

S_{\mathrm {F} HSC}=\pi \sigma ^{2}\left(1+\left(m-1\right)L^{*}\right)

The Vörtler and Nezbeda equation of state is given by

Z_{\mathrm {FHSC} }=1+(1+3\alpha )\eta _{0}(P^{*})+C_{\rm {FHSC}}[\eta _{0}(P^{*})]^{1.83}

where

C_{\rm {FHSC}}=5.66\alpha (1-0.045[\alpha -1]^{1/2}\eta _{0})

and

$\eta _{0}(P^{*})={\frac {{\sqrt {1+4(1+3\alpha )P^{*}}}-1}{2+6\alpha }}$

Horst L. Vörtler and I. Nezbeda "Volume-explicit equation of state and excess volume of mixing of fused hard sphere fluids", Berichte der Bunsen-Gesellschaft 94 pp. 559- (1990)
Saidu M. Waziri and Esam Z. Hamad "Volume-Explicit Equation of State for Fused Hard Sphere Chain Fluids", Industrial & Engineering Chemistry Research 47 pp. 9658-9662 (2008)

@@ Line 15: / Line 15: @@
 and the surface area is given by (Ref. 5 Eq. 12)
-:<math>S_{\rm FHSC} = \pi \sigma^2 \left( 1+\left( m-1 \right) L^* \right)</math>
+:<math>S_{\mathrm FHSC} = \pi \sigma^2 \left( 1+\left( m-1 \right) L^* \right)</math>
+==Equation of state==
+The Vörtler and Nezbeda [[Equations of state | equation of state]] is given by
+:<math>Z_{\mathrm{FHSC}}= 1+ (1+3\alpha)\eta_0(P^*) + C_{\rm FHSC}[\eta_0(P^*)]^{1.83}</math>
+where
+:<math>C_{\rm FHSC} = 5.66\alpha(1-0.045[\alpha-1]^{1/2}\eta_0)</math>
+and
+<math>\eta_0(P^*) = \frac{\sqrt{1+4(1+3\alpha)P^*}-1}{2+6\alpha}</math>
+#Horst L. Vörtler and I. Nezbeda "Volume-explicit equation of state and excess volume of mixing of fused hard sphere fluids", Berichte der Bunsen-Gesellschaft '''94''' pp. 559- (1990)
+#[http://dx.doi.org/10.1021/ie800755s Saidu M. Waziri and Esam Z. Hamad "Volume-Explicit Equation of State for Fused Hard Sphere Chain Fluids", Industrial & Engineering Chemistry Research '''47''' pp. 9658-9662 (2008)]
 ==See also==
 *[[Rigid fully flexible fused hard sphere model]]