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Received April 26, 2005
Accepted July 4, 2005
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An Extension of the Group Contribution Method for Estimating Thermodynamic and Transport Properties. Part III. Noble Gases

Chemical and Biochemical Engineering Department, Kon-Yang University, San 26, Naedong, Nonsan, Chungnam 320-711, Korea
Korean Journal of Chemical Engineering, November 2005, 22(6), 949-959(11), 10.1007/BF02705681
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Abstract

Earlier work on the group contribution method applied to the Kihara potential is extended to noble gases for the estimation of second virial coefficients, dilute gas viscosities and diffusivities with a single set of gas group parameters. Group parameters are determined when second virial coefficient and viscosity data of pure gases are satisfactorily fitted within the experimental uncertainties. Parameters for gas groups (He, Ne, Ar, Kr and Xe) are found to provide good predictions of mixture properties: second virial cross coefficients, mixture viscosities, and binary diffusion coefficients. Application of the model shows that second virial coefficient data are represented with good results comparable to the values by means of the corresponding states correlation. The reliability of the present model in viscosity predictions is proved by comparison with the Lucas method. Prediction results of diffusivity are in excellent agreement with literature data and compare well with values obtained by means of the Fuller method.

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