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The Description of Near-Critical Region for the Non-Ideal Inter-Particle Interacting Molecules such as n-Alkane(linear) and Alkyl-Amine(dipolar) by using Generalized van der Waals Equation of States  

Kim, Jibeom (Department of Information & Communications Engineering, Dongguk Univ-Seoul)
Lee, Sukbae (Quantum Energy Research Centre)
Jeon, Joonhyeon (Department of Information & Communications Engineering, Dongguk Univ-Seoul)
Publication Information
Korean Chemical Engineering Research / v.48, no.2, 2010 , pp. 224-231 More about this Journal
Abstract
In GvdW EOS, a recently presented paper, shows that the characteristic status for spherical non-linear particle, of which the mutual behavior is known to be vdWf(van der Waals force) only, could be described well enough in the critical region. However, in current papers, analysis has not been done on GvdW about whether it is accurate or not, even for the particles in the linear form or those with the additional mutual behavior such as static-electricity, so there's some argument about the wide use of that. Therefore, in this paper, for the simulation in the critical region of Normal-alkane group(R=methane, ethane, propane, butane) which are the particles that has a linear charateristic and Normal-amine group($RNH_2$, R=methyl-, ethyl-, propyl-amine) where static-electricity is extremely shown, GvdW parameter values about these particles are defined, and based on this simulation, we compared results to the current EOS presented recently, and analyzed them. Through the simulation, it was shown that in case of Normal-alkane group and Normal-amine group molecules, GvdW presents an accurate critical region characteristic which is far more close to the measurement compared to current EOSs. Especially for butane with big amount in molecules, we found out that only GvdW EOS can reach close enough to the critical point.
Keywords
GvdW; Equation of State; Critical Region; Amine; Alkane; Compressibility Factor; 3-Parameter System;
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