Reduced Equations of State Critical Property Isotope Effects

Reduced Equations of State Critical Property Isotope Effects 

Abstract In corresponding states (CS) theory the PVT properties of fluids are expressed in terms of the critical constants and one or more additional parameters. In this chapter the use of CS theory to correlate isotope effects on the physical properties of fluids is explored. 

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Commonly encountered cubic equations of state are classical, and, of themselves, cannot rationalize IE s on PVT properties. Even so, the physical properties of iso-topomers are nearly the same, and it is likely in some sense they are in corresponding state when their reduced thermodynamic variables are the same that is the point explored in this chapter. By assuming that isotopomers are described by EOS s of identical form, the calculation of PVT isotope effects (i.e. the contribution of quantization) is reduced to a knowledge of critical property IE s (or for an extended EOS, to critical property IE s plus the acentric factor IE). One finds molar density IE s to be well described in terms of the critical property IE s alone (even though proper description of the parent molar densities themselves is impossible without the use of the acentric factor or equivalent), but rationalization of VPIE s requires the introduction of an IE on the acentric factor. 

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