Evaluation of the parameters of the Bender equation of state for low acentric factor fluids and carbon dioxide |
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Authors: | J. Ghazouani |
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Affiliation: | U.R.: Thermique et Thermodynamique des Procédés Industriels, Ecole Nationale d’Ingénieurs de Monastir, ENIM, Av. Ibn Jazzar, 5060 Monastir, Tunisia |
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Abstract: | Volumetric properties of several low acentric factor fluids (Ar, CH4, C2H6, Kr, N2, Ne, O2, Xe) as well as CO2 are modeled using the Bender equation of state. This equation is a linear function of 19 adjustable parameters, which are evaluated from properties data, using a linear numerical procedure. The validity of the EOS is tested by calculating the Joule-Thomson inversion curve. A simple model is in particular used to correlate the inversion properties predicted by the Bender equation, expressed in term of reduced pressure as a function of reduced temperatures ranging from 0.8 to 6. The simple correlation reproduces accurately the used data. We employ data on state behaviour ρ(P,T) of homogeneous fluid phases, vapour-liquid equilibrium, second virial coefficient and the coordinates of the critical point. |
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Keywords: | Equation of state Second virial coefficient Inversion curve Acentric factor Pure fluids |
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