MODEL OF THERMODYNAMIC PROPERTIES OF ELECTROLYTIC AQUEOUS SOLUTIONS

被引：0

作者：

Ben Gaieda, L. ^{[1
]}

Gros, J. -B. ^{[1
]}

Dussap, C. G. ^{[1
]}

机构：

[1] Univ Blaise Pascal, CUST, Lab Genie Chim & Biochim, 24 Ave Landais,BP 206, F-63174 Aubiere, France

来源：

SCIENTIFIC STUDY AND RESEARCH-CHEMISTRY AND CHEMICAL ENGINEERING BIOTECHNOLOGY FOOD INDUSTRY | 2006年 / 7卷 / 04期

关键词：

aqueous solutions; electrolytes; equilibrium properties; physical-chemical model; hydration;

D O I：

暂无

中图分类号：

O6 [化学];

学科分类号：

0703 ;

摘要：

A new chemical-physical group contribution model for activity coefficient is proposed to estimate the equilibrium properties of aqueous solutions containing electrolytes. The chemical part of the model accounts for the hydration equilibrium of water and ions with the formation of ions n-water complexes in a single stage process; n, the hydration number, and K, the hydration equilibrium constant, are the two independent parameters in this part. The physical part of the model is the UNIFAC group-contribution model for short range interactions. Each ion is considered as a group. Long range interactions are accounted for by a Pitzer (Debye and Huckel theory) contribution. The model is compared to experimental data including water activity, osmotic coefficients, activity coefficients, and pH etc. of binary concentrated electrolyte solutions (20M NaOH, 16M HCl, etc.).

引用

页码：847 / 856

页数：10

共 50 条

[21] THERMODYNAMIC PROPERTIES OF FUROIC ACID IN AQUEOUS AND AQUEOUS DIXAN SOLUTIONS
KLETT, DS
FREASIER, BF
JOURNAL OF THE CHEMICAL SOCIETY, 1962, (NOV): : 4741 - &
[22] THERMODYNAMIC PROPERTIES OF AQUEOUS LITHIUM CHLORIDE SOLUTIONS - AN EVALUATION OF THE GAS CURRENT METHOD FOR THE DETERMINATION OF THE THERMODYNAMIC PROPERTIES OF AQUEOUS SALT SOLUTIONS
JOHNSON, EF
MOLSTAD, MC
JOURNAL OF PHYSICAL AND COLLOID CHEMISTRY, 1951, 55 (02): : 257 - 281
[23] ELECTROLYTIC PROPERTIES OF AQUEOUS SOLUTIONS OF POLYVINYLPYRIDINE NEUTRALIZED WITH HYDROIODIC ACID
WALL, FT
ONDREJCIN, JJ
PIKRAMENOU, M
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1951, 73 (06) : 2821 - 2825
[24] Electrolytic properties of aqueous solutions of octyltrimethylammonium octanesulfonate and decyltrimethylammonium decanesulfonate
Scott, AB
Tartar, HV
Lingafelter, EC
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1943, 65 : 698 - 701
[25] A modified UNIFAC model for the calculation of thermodynamic properties of aqueous and non-aqueous solutions containing sugars
Peres, AM
Macedo, EA
FLUID PHASE EQUILIBRIA, 1997, 139 (1-2) : 47 - 74
[26] PREDICTION OF THERMODYNAMIC PROPERTIES OF ELECTROLYTIC SOLUTIONS USING THE MEAN SPHERICAL APPROXIMATION
WATANASIRI, S
BRULE, MR
LEE, LL
JOURNAL OF PHYSICAL CHEMISTRY, 1982, 86 (02): : 292 - 294
[27] THERMODYNAMIC ANALYSIS OF PHASE FORMATION IN ELECTROLYTIC TITANIUM DEPOSITION FROM AQUEOUS-SOLUTIONS
TYURIN, AG
SOVIET ELECTROCHEMISTRY, 1990, 26 (12): : 1424 - 1430
[28] Properties of electrolytic solutions. XV. Thermodynamic properties of very weak electrolytes
Fuoss, RM
Kraus, CA
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1935, 57 (01) : 1 - 4
[29] Thermodynamic properties of sugars in aqueous solutions: Correlation and prediction using a modified UNIQUAC model
Faculdade de Engenharia, Porto, Portugal
Fluid Phase Equilib, 1-2 (71-95):
[30] Thermodynamic properties of sugars in aqueous solutions: Correlation and prediction using a modified UNIQUAC model
Peres, AM
Macedo, EA
FLUID PHASE EQUILIBRIA, 1996, 123 (1-2) : 71 - 95

← 1 2 3 4 5 →