Article: Equation of state for nonpolar, polar, chain, and associating fluids based on the dipolar Yukawa potential

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Title	Equation of state for nonpolar, polar, chain, and associating fluids based on the dipolar Yukawa potential
Authors	Liu, ZP2 Li, YG2 Chan, KY1
Issue Date	2001
Publisher	American Chemical Society. The Journal's web site is located at http://pubs.acs.org/iecr
Citation	Industrial And Engineering Chemistry Research, 2001, v. 40 n. 3, p. 973-979 [How to Cite?]
Abstract	An equation of state (EOS) based on Yukawa and dipolar Yukawa potentials is presented. It is extended to chainlike and associating fluids in the framework of statistical associating fluid theory (SAFT). The EOS is applied to 42 pure real fluids (including nonpolar, polar, and associating fluids) and has a good description of saturated pressures and coexistence curves for these fluids, except very near to the critical point. The parameters for each fluid are regressed from experimental data. Some comparisons among this work, the original SAFT, and the Lennard-Jones (LJ)-based SAFT are carried out. The performance for real polar fluids is also compared between the dipolar Yukawa fluids (DYF) and the Stockmayer fluids (STMF).
ISSN	0888-5885 2011 Impact Factor: 2.237 2011 SCImago Journal Rankings: 0.128
References	References in Scopus

DC Field	Value
dc.contributor.author	Liu, ZP
dc.contributor.author	Li, YG
dc.contributor.author	Chan, KY
dc.date.accessioned	2012-10-08T03:10:11Z
dc.date.available	2012-10-08T03:10:11Z
dc.date.issued	2001
dc.description.abstract	An equation of state (EOS) based on Yukawa and dipolar Yukawa potentials is presented. It is extended to chainlike and associating fluids in the framework of statistical associating fluid theory (SAFT). The EOS is applied to 42 pure real fluids (including nonpolar, polar, and associating fluids) and has a good description of saturated pressures and coexistence curves for these fluids, except very near to the critical point. The parameters for each fluid are regressed from experimental data. Some comparisons among this work, the original SAFT, and the Lennard-Jones (LJ)-based SAFT are carried out. The performance for real polar fluids is also compared between the dipolar Yukawa fluids (DYF) and the Stockmayer fluids (STMF).
dc.description.nature	Link_to_subscribed_fulltext
dc.identifier.citation	Industrial And Engineering Chemistry Research, 2001, v. 40 n. 3, p. 973-979 [How to Cite?]
dc.identifier.epage	979
dc.identifier.hkuros	62409
dc.identifier.issn	0888-5885 2011 Impact Factor: 2.237 2011 SCImago Journal Rankings: 0.128
dc.identifier.issue	3
dc.identifier.scopus	eid_2-s2.0-0035819608
dc.identifier.spage	973
dc.identifier.uri	http://hdl.handle.net/10722/167699
dc.identifier.volume	40
dc.language	eng
dc.publisher	American Chemical Society. The Journal's web site is located at http://pubs.acs.org/iecr
dc.publisher.place	United States
dc.relation.ispartof	Industrial and Engineering Chemistry Research
dc.relation.references	References in Scopus
dc.title	Equation of state for nonpolar, polar, chain, and associating fluids based on the dipolar Yukawa potential
dc.type	Article

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Author Affiliations

The University of Hong Kong
Tsinghua University

Article: Equation of state for nonpolar, polar, chain, and associating fluids based on the dipolar Yukawa potential

The HKU Scholars Hub has contact details for these author(s).