Phase behavior of water + hydrocarbon binary systems by using multi-fluid nonrandom lattice hydrogen bonding theory

Hun Yong Shin; Masashi Haruki; Ki Pung Yoo; Yoshio Iwai; Yasuhiko Arai

doi:10.1016/S0378-3812(01)00563-5

Phase behavior of water + hydrocarbon binary systems by using multi-fluid nonrandom lattice hydrogen bonding theory

Hun Yong Shin
, Masashi Haruki
, Ki Pung Yoo
, Yoshio Iwai
, Yasuhiko Arai

Dept. of Chemical and Biomolecular Engineering

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

A simple lattice hydrogen bonding theory for water + hydrocarbon systems is formulated. The theory is derived under the assumption that the intermolecular forces are divided into physical and chemical parts. Veytsman's statistics for the hydrogen bonding (HB) contribution is combined with the multi-fluid nonrandom lattice-fluid (MF-NLF) model previously developed by the present authors. The present MF-NLF-HB theory contains two molecular parameters representing molecular size and energy, and one additional interaction parameter for binary systems. The model is applied to quantitatively describe the thermodynamic properties of complex binary systems containing water and hydrocarbon.

Original language	English
Pages (from-to)	49-61
Number of pages	13
Journal	Fluid Phase Equilibria
Volume	189
Issue number	1-2
DOIs	https://doi.org/10.1016/S0378-3812(01)00563-5
State	Published - 15 Oct 2001

Keywords

Equation of state
Hydrocarbon
Hydrogen bonding model
Liquid-liquid equilibria
Vapor-liquid equilibria
Water

Access to Document

10.1016/S0378-3812(01)00563-5

Cite this

@article{a20284c2e8164848b85c6a11ec0daa80,

title = "Phase behavior of water + hydrocarbon binary systems by using multi-fluid nonrandom lattice hydrogen bonding theory",

abstract = "A simple lattice hydrogen bonding theory for water + hydrocarbon systems is formulated. The theory is derived under the assumption that the intermolecular forces are divided into physical and chemical parts. Veytsman's statistics for the hydrogen bonding (HB) contribution is combined with the multi-fluid nonrandom lattice-fluid (MF-NLF) model previously developed by the present authors. The present MF-NLF-HB theory contains two molecular parameters representing molecular size and energy, and one additional interaction parameter for binary systems. The model is applied to quantitatively describe the thermodynamic properties of complex binary systems containing water and hydrocarbon.",

keywords = "Equation of state, Hydrocarbon, Hydrogen bonding model, Liquid-liquid equilibria, Vapor-liquid equilibria, Water",

author = "Shin, \{Hun Yong\} and Masashi Haruki and Yoo, \{Ki Pung\} and Yoshio Iwai and Yasuhiko Arai",

year = "2001",

month = oct,

day = "15",

doi = "10.1016/S0378-3812(01)00563-5",

language = "English",

volume = "189",

pages = "49--61",

journal = "Fluid Phase Equilibria",

issn = "0378-3812",

number = "1-2",

}

TY - JOUR

T1 - Phase behavior of water + hydrocarbon binary systems by using multi-fluid nonrandom lattice hydrogen bonding theory

AU - Shin, Hun Yong

AU - Haruki, Masashi

AU - Yoo, Ki Pung

AU - Iwai, Yoshio

AU - Arai, Yasuhiko

PY - 2001/10/15

Y1 - 2001/10/15

N2 - A simple lattice hydrogen bonding theory for water + hydrocarbon systems is formulated. The theory is derived under the assumption that the intermolecular forces are divided into physical and chemical parts. Veytsman's statistics for the hydrogen bonding (HB) contribution is combined with the multi-fluid nonrandom lattice-fluid (MF-NLF) model previously developed by the present authors. The present MF-NLF-HB theory contains two molecular parameters representing molecular size and energy, and one additional interaction parameter for binary systems. The model is applied to quantitatively describe the thermodynamic properties of complex binary systems containing water and hydrocarbon.

AB - A simple lattice hydrogen bonding theory for water + hydrocarbon systems is formulated. The theory is derived under the assumption that the intermolecular forces are divided into physical and chemical parts. Veytsman's statistics for the hydrogen bonding (HB) contribution is combined with the multi-fluid nonrandom lattice-fluid (MF-NLF) model previously developed by the present authors. The present MF-NLF-HB theory contains two molecular parameters representing molecular size and energy, and one additional interaction parameter for binary systems. The model is applied to quantitatively describe the thermodynamic properties of complex binary systems containing water and hydrocarbon.

KW - Equation of state

KW - Hydrocarbon

KW - Hydrogen bonding model

KW - Liquid-liquid equilibria

KW - Vapor-liquid equilibria

KW - Water

UR - https://www.scopus.com/pages/publications/0035888576

U2 - 10.1016/S0378-3812(01)00563-5

DO - 10.1016/S0378-3812(01)00563-5

M3 - Article

AN - SCOPUS:0035888576

SN - 0378-3812

VL - 189

SP - 49

EP - 61

JO - Fluid Phase Equilibria

JF - Fluid Phase Equilibria

IS - 1-2

ER -

Phase behavior of water + hydrocarbon binary systems by using multi-fluid nonrandom lattice hydrogen bonding theory

Abstract

Keywords

Access to Document

Other files and links

Fingerprint

Cite this