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Citati 01.01.2017-30.11.2017
Chemical equilibrium model of solution behavior and solubility in the H-Na-K-OH-Cl-
HSO 4-SO 4-H 2 O system to high concentration and temperature (GCA 2004a)
Authors
Christomir Christov, Nancy Moller
1. Molar Volumes and Heat Capacities of Aqueous Solutions of Potassium
Hydroxide and for Water Ionization up to 573 K at 10 MPa, L Hnedkovsky, S
Bochmann, PM May… - Journal of Chemical & …, 2017 - ACS Publications
2. Darapskite solubility in basic solutions at 25° C: A Pitzer model for the Na NO 3
SO 4 OH H 2 O system, A Lach, L André, A Lassin - Applied Geochemistry, 2017
- Elsevier
3. Development of compositional three-phase relative permeability and hysteresis
models and their application to EOR processes, MR Beygi, M Reza - 2017 -
repositories.lib.utexas.edu
4. [HTML] Considerations about the building of a thermodynamic database for the
chemical description of highly saline systems, A Lassin, L André, A Lach -
Procedia Earth and Planetary Science, 2017 - Elsevier
5. The solubility of fluorite in Na-K-Cl solutions at temperatures up to 260° C and
ionic strengths up to 4 mol/kg H 2 O, W Zhang, L Zhou, H Tang, H Li, W Song, G
Xie - Applied Geochemistry, 2017 - Elsevier
6. Solubility Measurements and Predictions of Gypsum, Anhydrite, and Calcite Over
Wide Ranges of Temperature, Pressure, and Ionic Strength with Mixed
Electrolytes, Z Dai, AT Kan, W Shi, N Zhang, F Zhang, F Yan… - Rock
Mechanics and …, 2017 - Springer
7. Calculations of phase equilibrium parameters of the quaternary systems KBr–
K2SO4–K2B4O7–H2O and NaBr–Na2SO4–Na2B4O7–H2O at 298 K, RZ Cui, D
Wang, YY Yang, SH Sang - Russian Journal of Physical …, 2017 - Springer
8. Static Modeling of Oil Field Mineral Scales: Software DevelopmentM,
Parvazdavani, B Kari Payhan… - Journal of Petroleum …, 2017 - jpst.ripi.ir,
9. Solid-liquid equilibria in the ternary system NaBr–KBr–H2O at 398 K, RZ Cui,
TT Zhang, W Wang, SH Sang - Russian Journal of Physical …, 2017 - Springer
10. Measurements and calculations of solid-liquid equilibria in the quaternary system
KBr–CaBr2–MgBr2–H2O at (298 and 323) K, RZ Cui, ZC Wang, JS Xu, SH
Sang - Fluid Phase Equilibria, 2017 – Elsevier
11. The solubility of fluorite in Na-K-Cl solutions at temperatures up to 260° C and
ionic strengths up to 4 mol/kg H 2 O, W Zhang, L Zhou, H Tang, H Li, W Song, G
Xie - Applied Geochemistry, 2017 - Elsevier
12. The paleolacustrine evolution of Juventae Chasma and Maja Valles and its
implications for the formation of interior layered deposits on Mars , M Al-Samir, S
Nabhan, J Fritz, A Winkler, JL Bishop… - Icarus, 2017 - Elsevier
13. Experimental Data and Modeling of Solution Density and Heat Capacity in the
Na–K–Ca–Mg–Cl–H2O System up to 353.15 K and 5 mol· kg–1 Ionic Strength, A
Lach, K Ballerat-Busserolles, L Andre… - Journal of Chemical & …, 2017 - ACS
Publications
14. Measurements and calculations of solid-liquid equilibria in the ternary systems
NaBr–Na2SO4–H2O and KBr–K2SO4–H2O at 348 K, Shi-Hua Sang, Rui-Zhi
Cui, Xue-Ping Zhang, Kai-Jie Zhang, December 2017, Geochemistry International
55(12):1131-1139, DOI10.1134/S0016702917120047
2
A Chemical equilibrium model of solution behavior and solubility in the H-Na-K-Ca
OH-Cl-HSO 4-SO 4-H 2 O system to high concentration and temperature (GCA
2004b)
Authors Christomir Christov, Nancy Moller
15. Molar Volumes and Heat Capacities of Aqueous Solutions of Potassium
Hydroxide and for Water Ionization up to 573 K at 10 MPa, L Hnedkovsky, S
Bochmann, PM May… - Journal of Chemical & …, 2017 - ACS Publications
16. Darapskite solubility in basic solutions at 25° C: A Pitzer model for the Na NO 3
SO 4 OH H 2 O system, A Lach, L André, A Lassin - Applied Geochemistry, 2017
- Elsevier
17. Development of compositional three-phase relative permeability and hysteresis
models and their application to EOR processes, MR Beygi, M Reza - 2017 -
repositories.lib.utexas.edu
18. Considerations about the building of a thermodynamic database for the chemical
description of highly saline systems, A Lassin, L André, A Lach - Procedia Earth
and Planetary Science, 2017 - Elsevier
19. Measurements and calculations of solid-liquid equilibria in the quaternary system
KBr–CaBr2–MgBr2–H2O at (298 and 323) K Cui, R.-Z., Wang, Z.-C., Xu, J.-S.,
Sang, S.-H. 2017Fluid Phase Equilibria
20. Experimental Data and Modeling of Solution Density and Heat Capacity in the
Na-K-Ca-Mg-Cl-H2O System up to 353.15 K and 5 mol·kg-1
Ionic Strength Lach,
A., Ballerat-Busserolles, K., André, L., Neyt, J.-C., Serin, J.-P. 2017Journal of
Chemical and Engineering Data
21. Solid-liquid equilibria in the ternary system NaBr–KBr–H2O at 398 K , Cui, R.-
Z., Zhang, T.-T., Wang, W., Sang, S.-H. ,2017, Russian Journal of Physical
Chemistry A
22. Calculations of phase equilibrium parameters of the quaternary systems KBr–
K2SO4–K2B4O7–H2O and NaBr–Na2SO4–Na2B4O7–H2O at 298 K Cui, R.-Z.,
Wang, D., Yang, Y.-Y., Sang, S.-H. 2017, Russian Journal of Physical Chemistry
A
23. The solubility of fluorite in Na-K-Cl solutions at temperatures up to 260 °C and
ionic strengths up to 4 mol/kg H2O ,Zhang, W., Zhou, L., Tang, H., (...), Song,
W., Xie, G. 2017, Applied Geochemistry
24. Calcite and Barite Solubility Measurements in Mixed Electrolyte Solutions and
Development of a Comprehensive Model for Water-Mineral-Gas Equilibrium of
the Na-K-Mg-Ca-Ba-Sr-Cl-SO4-CO3-HCO3-CO2(aq)-H2O System up to 250°C
and 1500 bar , Dai, Z., Kan, A.T., Shi, W., Deng, G., Tomson, M.B. 2017,
Industrial and Engineering Chemistry Research
25. Solubility Measurements and Predictions of Gypsum, Anhydrite, and Calcite Over
Wide Ranges of Temperature, Pressure, and Ionic Strength with Mixed
Electrolytes Dai, Z., Kan, A.T., Shi, W., (...), Ruan, G., Tomson, M.B. 2017 Rock
Mechanics and Rock Engineering 3
3
26. Measurements and calculations of solid-liquid equilibria in the ternary systems
NaBr–Na2SO4–H2O and KBr–K2SO4–H2O at 348 K, Shi-Hua Sang, Rui-Zhi
Cui, Xue-Ping Zhang, Kai-Jie Zhang, December 2017, Geochemistry International
55(12):1131-1139, DOI10.1134/S0016702917120047
Thermodynamics of formation of carnallite type double salts
Chr Balarew, Chr Christov, Vl Valyashko, S Petrenko
27. Thermodynamics and phase equilibrium of the high concentration solid solution-
aqueous solution system KCl–RbCl–H 2 O from T= 298.15 K to T= 323.15 K, L
Guo, H Han, O Dong, Y Yao - The Journal of Chemical Thermodynamics, 2017 -
Elsevier
28. Water Activity and Solubility Measurements and Pitzer Model Simulation of the
MgCl2–RbCl–H2O Ternary System at 298.15 K, L Guo, Y Wang, L Tu, J Li -
Journal of Solution Chemistry – Springer
29. Solubility of RbCl and CsCl in pure water at subzero temperatures, heat capacity
of RbCl (aq) and CsCl (aq) at T= 298.15 K, and thermodynamic modeling of
RbCl+ H …, D Gao, D Li, W Li - The Journal of Chemical Thermodynamics,
2017 - Elsevier
30. Thermodynamics and Phase Equilibrium of the System CsCl–MgCl2–H2O at
298.15 K, L Guo, Y Wang, L Tu, J Li - Journal of Chemical & Engineering …,
2017 - ACS Publications
31. Solid-liquid equilibria in the ternary system NaBr–KBr–H2O at 398 K, RZ Cui,
TT Zhang, W Wang, SH Sang - Russian Journal of Physical …, 2017 - Springer
32. Measurements and calculations of solid-liquid equilibria in the quaternary system
KBr–CaBr2–MgBr2–H2O at (298 and 323) K,. RZ Cui, ZC Wang, JS Xu, SH
Sang - Fluid Phase Equilibria, 2017 - Elsevier
33. Temperature Dependence of Mineral Solubility in Water. Part I. Alkaline and
Alkaline Earth Chlorides, BS Krumgalz - Journal of Physical and Chemical
Reference Data, 2017 - aip.scitation.org
Thermodynamics of formation of double salts and mixed crystals from aqueous solutions
C Christov
34. Low-temperature heat capacity and thermodynamic functions of natural
chalcanthite, MR Bissengaliyeva, NS Bekturganov, DB Gogol… - The Journal of
Chemical …, 2017 - Elsevier
35. Solubility of RbCl and CsCl in pure water at subzero temperatures, heat capacity
of RbCl (aq) and CsCl (aq) at T= 298.15 K, and thermodynamic modeling of
RbCl+ H …, D Gao, D Li, W Li - The Journal of Chemical Thermodynamics,
2017 - Elsevier
36. [HTML] Considerations about the building of a thermodynamic database for the
chemical description of highly saline systems, A Lassin, L André, A Lach -
Procedia Earth and Planetary Science, 2017 – Elsevier
37. Understanding the Solid Solution–Aqueous Solution Equilibria in the KCl+ RbCl+
H2O System from Experiments, Atomistic Simulation and Thermodynamic
Modeling, D Li, D Gao, D Zeng, W Li - Journal of Solution Chemistry, 2017 -
Springer
4
38. Solubility diagrams of Na2SO4–Rb2SO4–MgSO4–H2O, Na2SO4–Cs2SO4–
MgSO4–H2O, and K2SO4–Cs2SO4–MgSO4–H2O at 298.15 K, FY Wang -
Russian Journal of Inorganic Chemistry, 2017 - Springer
39. Solid-liquid equilibria in the ternary system NaBr–KBr–H2O at 398 K, RZ Cui,
TT Zhang, W Wang, SH Sang - Russian Journal of Physical …, 2017 - Springer
40. Measurements and calculations of solid-liquid equilibria in the quaternary system
KBr–CaBr2–MgBr2–H2O at (298 and 323) K, RZ Cui, ZC Wang, JS Xu, SH
Sang - Fluid Phase Equilibria, 2017 – Elsevier
41. Controllable synthesis of nanostructured BaSO 4 and BaSO 3 crystals on the basis
of DMSO oxidation chemistry, X Qiao, F Zhang, F Sha, J Zhao, H Shi, J Zhang -
CrystEngComm, 2017
Thermodynamic Modeling of Aqueous Aluminum Chemistry and Solid-Liquid Equilibria to
High...C Christov, AG Dickson, N Moller
42. Development of compositional three-phase relative permeability and hysteresis
models and their application to EOR processes, MR Beygi, M Reza - 2017 -
repositories.lib.utexas.edu
43. Laurent André1, ChristomirChristov2, ArnaultLassin1, and Mohamed Azaroual1:
Behavior of Al(III), Fe(III) and Cr(III) in saline solutions. A Pitzerapproach -based
thermodynamic model for solution behavior and solid-liquid equilibrium in Na-
Al(III)-Fe(III)-Cr(III)-Cl-H2O system at 25°C , Full-text available · Conference Paper · Oct 2017
Thermodynamic study of (b1RbCl+ b2MeCl2)(aq), where b denotes molality and Me denotes
Mn,..., C Christov
44. Solubility of RbCl and CsCl in pure water at subzero temperatures, heat capacity
of RbCl (aq) and CsCl (aq) at T= 298.15 K, and thermodynamic modeling of
RbCl+ H …, D Gao, D Li, W Li - The Journal of Chemical Thermodynamics,
2017 - Elsevier
An isopiestic study of aqueous NaBr and KBr at 50 C: chemical equilibrium model of
solution...C Christov,
45. Measurements and calculations of solid-liquid equilibria in the quaternary system
NaBr–KBr–Na 2 SO 4–K 2 SO 4–H 2 O at T= 348 K, R Cui, L Yang, X Zhang, S
Sang - Fluid Phase Equilibria, 2017 - Elsevier
46. The solubility of fluorite in Na-K-Cl solutions at temperatures up to 260° C and
ionic strengths up to 4 mol/kg H 2 O, W Zhang, L Zhou, H Tang, H Li, W Song, G
Xie - Applied Geochemistry, 2017 – Elsevier 47. Measurements and calculations of solid-liquid equilibria in the quaternary system
KBr–CaBr2–MgBr2–H2O at (298 and 323) K ,Cui, R.-Z., Wang, Z.-C., Xu, J.-S., Sang,
S.-H. ,2017Fluid Phase Equilibria
48. Solid-liquid equilibria in the ternary system NaBr–KBr–H2O at 398 K Cui, R.-Z., Zhang,
T.-T., Wang, W., Sang, S.-H. 2017Russian Journal of Physical Chemistry A
5
49. Calculations of phase equilibrium parameters of the quaternary systems KBr–K2SO4–
K2B4O7–H2O and NaBr–Na2SO4–Na2B4O7–H2O at 298 K Cui, R.-Z., Wang, D.,
Yang, Y.-Y., Sang, S.-H. 2017Russian Journal of Physical Chemistry A
50. Measurements and calculations of solid-liquid equilibria in the ternary systems
NaBr–Na2SO4–H2O and KBr–K2SO4–H2O at 348 K, Shi-Hua Sang, Rui-Zhi
Cui, Xue-Ping Zhang, Kai-Jie Zhang, December 2017, Geochemistry International
55(12):1131-1139, DOI10.1134/S0016702917120047
Pitzer ion-interaction parameters for Fe (II) and Fe (III) in the quinary {Na+ K+
Mg+ Cl+ SO 4+ H 2 O} system at T= 298.15 K, C Christov - The Journal of
Chemical Thermodynamics, 2004 - Elsevier
51. Precipitation of silica from zinc process solution, T Vielma, U Lassi, J Salminen -
Monatshefte für Chemie-Chemical Monthly - Springer
52. Behavior of Al(III), Fe(III) and Cr(III) in saline solutions. A Pitzerapproach -
based thermodynamic model for solution behavior and solid-liquid equilibrium in
Na-Al(III)-Fe(III)-Cr(III)-Cl-H2O system at 25°C , Laurent André1,
ChristomirChristov2, ArnaultLassin1, and Mohamed Azaroual1:Full-text available
· Conference Paper · Oct 2017
Thermodynamic simulation of four-component carnallite type systems
Authors C Christov, S Petrenko, C Balarew, Vl Valyashko
53. Thermodynamics and phase equilibrium of the high concentration solid solution-
aqueous solution system KCl–RbCl–H2O from T= 298.15 K to T= 323.15 K, L
Guo, H Han, O Dong, Y Yao - The Journal of Chemical Thermodynamics, 2017 -
Elsevier
54. Solubility of RbCl and CsCl in pure water at subzero temperatures, heat capacity
of RbCl (aq) and CsCl (aq) at T= 298.15 K, and thermodynamic modeling of
RbCl+ H …, D Gao, D Li, W Li - The Journal of Chemical Thermodynamics,
2017 – Elsevier
55. Solid-liquid equilibria in the ternary system NaBr–KBr–H2O at 398 K, RZ Cui,
TT Zhang, W Wang, SH Sang - Russian Journal of Physical …, 2017 - Springer
56. Measurements and calculations of solid-liquid equilibria in the quaternary system
KBr–CaBr2–MgBr2–H2O at (298 and 323) K, RZ Cui, ZC Wang, JS Xu, SH
Sang - Fluid Phase Equilibria, 2017 - Elsevier
57. Temperature Dependence of Mineral Solubility in Water. Part I. Alkaline and
Alkaline Earth Chlorides, BS Krumgalz - Journal of Physical and Chemical
Reference Data, 2017 - aip.scitation.org
Isopiestic Determination of the Osmotic Coefficients of an Aqueous MgCl2+ CaCl2
Mixed Solution at (25 and 50) C. Chemical Equilibrium Model of Solution Behavior
and Solubility in the MgCl2+ H2O and MgCl2+ CaCl2+ H2O Systems to High
Concentration at (25 and 50) C
Authors
Christomir Christov
6
58. Water Activity and Solubility Measurements and Pitzer Model Simulation of the
MgCl2–RbCl–H2O Ternary System at 298.15 K, L Guo, Y Wang, L Tu, J Li -
Journal of Solution Chemistry - Springer
59. A Low-Temperature Thermodynamic Model for the Na-K-Ca-Mg-Cl System
Incorporating New Experimental Heat Capacities in KCl, MgCl2, and CaCl2
Solutions, JD Toner, DC Catling - Journal of Chemical & Engineering Data, 2017
- ACS Publications
60. Measurements and calculations of solid-liquid equilibria in the quaternary system
KBr–CaBr2–MgBr2–H2O at (298 and 323) KRZ Cui, ZC Wang, JS Xu, SH
Sang - Fluid Phase Equilibria, 2017 - Elsevier
Calculation of the Gibbs energy of mixing in crystals using Pitzer's model
Authors
Chr Christov, S Petrenko, Chr Balarew, Vl Valyashko
61. Solubility of RbCl and CsCl in pure water at subzero temperatures, heat capacity
of RbCl (aq) and CsCl (aq) at T= 298.15 K, and thermodynamic modeling of
RbCl+ H …, D Gao, D Li, W Li - The Journal of Chemical Thermodynamics,
2017 – Elsevier
62. Temperature Dependence of Mineral Solubility in Water. Part I. Alkaline and
Alkaline Earth Chlorides, BS Krumgalz - Journal of Physical and Chemical
Reference Data, 2017 - aip.scitation.org
Effect of temperature on the solubility of carnallite type double salts Authors
Chr Christov, Chr Balarew
63. Solubility of RbCl and CsCl in pure water at subzero temperatures, heat capacity of RbCl
(aq) and CsCl (aq) at T= 298.15 K, and thermodynamic modeling of RbCl+ H …, D Gao,
D Li, W Li - The Journal of Chemical Thermodynamics, 2017 – Elsevier
64. Solid-liquid equilibria in the ternary system NaBr–KBr–H2O at 398 K, RZ Cui,
TT Zhang, W Wang, SH Sang - Russian Journal of Physical …, 2017 - Springer
65. Measurements and calculations of solid-liquid equilibria in the quaternary system
KBr–CaBr2–MgBr2–H2O at (298 and 323) K, RZ Cui, ZC Wang, JS Xu, SH
Sang - Fluid Phase Equilibria, 2017 - Elsevier
Study of bromide salts solubility in the (m 1 NaBr+m 2 MgBr 2)(aq) system at T= 323.15 K.
Thermodynamic model of solution behavior and (solid+ liquid) equilibria in the (Na+ K+
Mg+ Br+ H 2 O) system to high concentration and temperature
Authors, Christomir Christov
66. Measurements and calculations of solid-liquid equilibria in the quaternary system
NaBr–KBr–Na 2 SO 4–K 2 SO 4–H 2 O at T= 348 K, R Cui, L Yang, X Zhang, S
Sang - Fluid Phase Equilibria, 2017 - Elsevier
67. Solid–Liquid Equilibria in the Quaternary Systems NaBr–SrBr2–MgBr2–H2O and
KBr–SrBr2–MgBr2–H2O at 323 K, Q Liu, Y Gao, S Sang, R Cui… - Journal of
Chemical & …, 2017 - ACS Publications
7
68. Study of Phase equilibrium of (NaBr+ KBr+ H2O) and (NaBr+ MgBr2+ H2O) at
313.15 K, Q Chen, J She, Y Xiao; Scholar Alert: Journal of Chemistry, 2017 -
hindawi.com New citations to my articles
69. Calculations of phase equilibrium parameters of the quaternary systems KBr–
K2SO4–K2B4O7–H2O and NaBr–Na2SO4–Na2B4O7–H2O at 298 K, RZ Cui, D
Wang, YY Yang, SH Sang - Russian Journal of Physical …, 2017 - Springer
70. Solid-liquid equilibria in the ternary system NaBr–KBr–H2O at 398 K, RZ Cui,
TT Zhang, W Wang, SH Sang - Russian Journal of Physical …, 2017 - Springer
71. Measurements and calculations of solid-liquid equilibria in the quaternary system
KBr–CaBr2–MgBr2–H2O at (298 and 323) K, RZ Cui, ZC Wang, JS Xu, SH
Sang - Fluid Phase Equilibria, 2017 - Elsevier
72. Measurements of (Solid+ Liquid) Phase Equilibria in the Quaternary System
NaBr+ KBr+ SrBr2+ H2O and Two Subsystems NaBr+ SrBr2+ H2O and KBr+
SrBr2+ H2O …RZ Cui, GL Nie, SH Sang, L Yang… - Journal of Chemical & …,
2017 - ACS Publications
73. Measurements and calculations of solid-liquid equilibria in the ternary systems
NaBr–Na2SO4–H2O and KBr–K2SO4–H2O at 348 K, Shi-Hua Sang, Rui-Zhi
Cui, Xue-Ping Zhang, Kai-Jie Zhang, December 2017, Geochemistry International
55(12):1131-1139, DOI10.1134/S0016702917120047
Temperature variable chemical model of bromide–sulfate solution interaction parameters and
solid–liquid equilibria in the Na–K–Ca–Br–SO 4–H 2 O system
Authors,Christomir Christov
74. Measurements and calculations of solid-liquid equilibria in the quaternary system
NaBr–KBr–Na 2 SO 4–K 2 SO 4–H 2 O at T= 348 K, R Cui, L Yang, X Zhang, S
Sang - Fluid Phase Equilibria, 2017 – Elsevier
75. Calculations of phase equilibrium parameters of the quaternary systems KBr–
K2SO4–K2B4O7–H2O and NaBr–Na2SO4–Na2B4O7–H2O at 298 KRZ Cui, D
Wang, YY Yang, SH Sang - Russian Journal of Physical …, 2017 - Springer
76. Solid-liquid equilibria in the ternary system NaBr–KBr–H2O at 398 K, RZ Cui,
TT Zhang, W Wang, SH Sang - Russian Journal of Physical …, 2017 - Springer
77. Measurements and calculations of solid-liquid equilibria in the quaternary system
KBr–CaBr2–MgBr2–H2O at (298 and 323) K RZ Cui, ZC Wang, JS Xu, SH
Sang - Fluid Phase Equilibria, 2017 – Elsevier 78. Project, Energy and sustainable development, Eduardo Palenque, Research referenced in
this project:Temperature variable chemical model of bromide–sulfate solution
interaction parameters and solid–liquid equilibria in the Na–K–Ca–Br–SO4–H2O
system
Isopiestic investigation of the osmotic coefficients of MgBr 2 (aq) and study of
bromide salts solubility in the (m 1 KBr+ m 2 MgBr 2)(aq) system at T= 323.15 K.
Thermodynamic model of solution behaviour and (solid+ liquid) equilibria in the
MgBr 2 (aq), and (m 1 KBr+ m 2 MgBr 2)(aq) systems to high concentration and
temperature
AuthorsChristomir Christov
8
79. Calculations of phase equilibrium parameters of the quaternary systems KBr–
K2SO4–K2B4O7–H2O and NaBr–Na2SO4–Na2B4O7–H2O at 298 K,RZ Cui, D
Wang, YY Yang, SH Sang - Russian Journal of Physical …, 2017 - Springer
80. Measurements and calculations of solid-liquid equilibria in the quaternary system
NaBr–KBr–Na 2 SO 4–K 2 SO 4–H 2 O at T= 348 K, R Cui, L Yang, X Zhang, S
Sang - Fluid Phase Equilibria, 2017 - Elsevier
81. Solid-liquid equilibria in the ternary system NaBr–KBr–H2O at 398 K, RZ Cui,
TT Zhang, W Wang, SH Sang - Russian Journal of Physical …, 2017 - Springer
82. Measurements and calculations of solid-liquid equilibria in the quaternary system
KBr–CaBr2–MgBr2–H2O at (298 and 323) KRZ Cui, ZC Wang, JS Xu, SH
Sang - Fluid Phase Equilibria, 2017 - Elsevier
83. Solubility measurement, model evaluation and thermodynamic analysis of
rivaroxaban polymorphs in organic solvents,J Zhai, Z Chen, X Liu, L Zhang, J
Lu - The Journal of Chemical …, 2017 - Elsevier
84. Measurements of (Solid+ Liquid) Phase Equilibria in the Quaternary System
NaBr+ KBr+ SrBr2+ H2O and Two Subsystems NaBr+ SrBr2+ H2O and KBr+
SrBr2+ H2O …RZ Cui, GL Nie, SH Sang, L Yang… - Journal of Chemical & …,
2017 - ACS Publications
85. Solid–Liquid Equilibria in the Quaternary Systems NaBr–SrBr2–MgBr2–H2O and
KBr–SrBr2–MgBr2–H2O at 323 K, Q Liu, Y Gao, S Sang, R Cui… - Journal of
Chemical & …, 2017 - ACS Publications
86. Measurements and calculations of solid-liquid equilibria in the ternary systems
NaBr–Na2SO4–H2O and KBr–K2SO4–H2O at 348 K, Shi-Hua Sang, Rui-Zhi
Cui, Xue-Ping Zhang, Kai-Jie Zhang, December 2017, Geochemistry International
55(12):1131-1139, DOI10.1134/S0016702917120047
Isopiestic investigation of the osmotic coefficients of aqueous CaBr 2 and study of
bromide salt solubility in the NaBr–CaBr 2–H 2 O system at 50 C: Thermodynamic
model of solution behavior and solid–liquid equilibria in the CaBr 2–H 2 O, and
NaBr–CaBr 2–H 2 O systems to high concentration and temperature
Authors, Christomir Christov
87. Calculations of phase equilibrium parameters of the quaternary systems KBr–
K2SO4–K2B4O7–H2O and NaBr–Na2SO4–Na2B4O7–H2O at 298 K RZ Cui, D
Wang, YY Yang, SH Sang - Russian Journal of Physical …, 2017 - Springer
88. Measurements and calculations of solid-liquid equilibria in the quaternary system
NaBr–KBr–Na 2 SO 4–K 2 SO 4–H 2 O at T= 348 K R Cui, L Yang, X Zhang, S
Sang - Fluid Phase Equilibria, 2017 - Elsevier
89. Solid-liquid equilibria in the ternary system NaBr–KBr–H2O at 398 K RZ Cui, TT
Zhang, W Wang, SH Sang - Russian Journal of Physical …, 2017 - Springer
90. Measurements and calculations of solid-liquid equilibria in the quaternary system
KBr–CaBr2–MgBr2–H2O at (298 and 323) K RZ Cui, ZC Wang, JS Xu, SH
Sang - Fluid Phase Equilibria, 2017 - Elsevier
91. Measurements of (Solid+ Liquid) Phase Equilibria in the Quaternary System
NaBr+ KBr+ SrBr2+ H2O and Two Subsystems NaBr+ SrBr2+ H2O and KBr+
SrBr2+ H2O … RZ Cui, GL Nie, SH Sang, L Yang… - Journal of Chemical & …,
2017 - ACS Publications
9
92. Solid–Liquid Phase Equilibria of Ternary Systems LiCl–LiBr–H2O and CaCl2–
CaBr2–H2O at 288.15 K D Li, S Li, L Meng, T Deng, Y Guo - Journal of
Chemical & …, 2017 - ACS Publications
93. Measurements and calculations of solid-liquid equilibria in the ternary systems
NaBr–Na2SO4–H2O and KBr–K2SO4–H2O at 348 K, Shi-Hua Sang, Rui-Zhi
Cui, Xue-Ping Zhang, Kai-Jie Zhang, December 2017, Geochemistry International
55(12):1131-1139, DOI10.1134/S0016702917120047
Thermodynamic study of the K Mg Al Cl SO4 H2O system at the temperature
298.15 K, Authors Christomir Christov
94. Phase equilibria of ternary systems AlCl3+CaCl2+H2O,AlCl3+FeCl3 +H2O and
CaCl2+ FeCl3+H2O at 35℃ Y Mengxia, Q Xiuchen - CIESC Journal, 2017,
68(7): 2653-2659hgxb.com.cn (DOI: 10.11949/j.issn.0438-1157.20161758)
95. Behavior of Al(III), Fe(III) and Cr(III) in saline solutions. A Pitzerapproach -
based thermodynamic model for solution behavior and solid-liquid equilibrium in
Na-Al(III)-Fe(III)-Cr(III)-Cl-H2O system at 25°C , Laurent André1,
ChristomirChristov2, ArnaultLassin1, and Mohamed Azaroual1:Full-text available
· Conference Paper · Oct 2017
ANDRE L, CHRISTOV C, LASSIN A, Thermodynamic behavior of FeCl3-H2O and
HCl-FeCl3-H2O systems–a Pitzer model at 25 ℃[J]., Procedia Earth. Planet. Sci.
2013, 7: 14-18.
96. Phase equilibria of ternary systems AlCl3+CaCl2+H2O,AlCl3+FeCl3 +H2O and
CaCl2+ FeCl3+H2O at 35℃ Y Mengxia, Q Xiuchen - CIESC Journal, 2017,
68(7): 2653-2659 hgxb.com.cn (DOI: 10.11949/j.issn.0438-1157.20161758)
97. Speciation in the Fe(III)-Cl(I)-H2O System at 298.15 K, 313.15 K, and 333.15 K
(25 °C, 40 °C, and 60 °C), Nathalie E. Jamett · Pía C. Hernández · Jesús M. Casas
· María E. Taboada Metallurgical and Materials Transactions B, 2017
98. Phase equilibria of AlCl3 + FeCl3 + H2O, AlCl3 + CaCl2 + H2O, and FeCl3 +
CaCl2 + H2O at 298.15 K Yuan Mengxia, Xiuchen Qiao, Jianguo Yu, May 2016
Journal of Chemical & Engineering Data 61(5):1749-1755
Study of bromide salts solubility in the (m 1 KBr+ m 2 CaBr 2)(aq) system at T= 323.15 K.
Thermodynamic model of solution behaviour and (solid+ liquid) equilibria in the ternaries (m
1 KBr+ m 2 CaBr 2)(aq), and (m 1 MgBr 2+ m 2 CaBr 2)(aq), and in the quinary (Na+ K+
Mg+ Ca+ Br+ H 2 O) systems to high concentration and temperature
Authors, Christomir Christov
99. Measurements and calculations of solid-liquid equilibria in the quaternary system
NaBr–KBr–Na 2 SO 4–K 2 SO 4–H 2 O at T= 348 K, R Cui, L Yang, X Zhang, S
Sang - Fluid Phase Equilibria, 2017 – Elsevier
10
100. Calculations of phase equilibrium parameters of the quaternary systems KBr–
K2SO4–K2B4O7–H2O and NaBr–Na2SO4–Na2B4O7–H2O at 298 K,RZ Cui, D
Wang, YY Yang, SH Sang - Russian Journal of Physical …, 2017 - Springer
101. Solid-liquid equilibria in the ternary system NaBr–KBr–H2O at 398 K,RZ Cui,
TT Zhang, W Wang, SH Sang - Russian Journal of Physical …, 2017 - Springer
102. Measurements and calculations of solid-liquid equilibria in the quaternary
system KBr–CaBr2–MgBr2–H2O at (298 and 323) K, RZ Cui, ZC Wang, JS Xu,
SH Sang - Fluid Phase Equilibria, 2017 - Elsevier
103. Measurements of (Solid+ Liquid) Phase Equilibria in the Quaternary System
NaBr+ KBr+ SrBr2+ H2O and Two Subsystems NaBr+ SrBr2+ H2O and KBr+
SrBr2+ H2O …, RZ Cui, GL Nie, SH Sang, L Yang… - Journal of Chemical
& …, 2017 - ACS Publications
Thermodynamic study of the Na-Cu-Cl-SO 4-H 2 O system at the temperature 298.15 K
Authors, Christomir Christov
104. Solid–Liquid Equilibrium and Copper Sulfate Crystallization Process Design
from a Sulfuric-Acid–Seawater System in the Temperature Range from 293.15 to
333.15 …, FJ Justel, ME Taboada, YP Jiménez - Industrial & Engineering …,
2017 - ACS Publications
105. Thermodynamic study of the Cu-Na-H-SO 4-Cl-HSO 4-H 2 O system for the
solubility of copper sulfate in acid seawater at different temperatures, FJ Justel,
ME Taboada, YP Jiménez - Journal of Molecular Liquids, 2017 - Elsevier
On OH uptake by sea salt under humid conditions
Authors, Jong‐Ho Park, Christomir I Christov, Andrey V Ivanov, Mario J Molina
106. Initial hydration processes of magnesium chloride: size-selected anion
photoelectron spectroscopy and ab initio calculations, G Feng, C Liu, Z Zeng, GL
Hou, HG Xu… - Physical Chemistry …, 2017 - pubs.rsc.org
Thermodynamic study of (m 1 Cs2SeO4+m 2 NiSeO4)(aq) wheremdenotes molality atT=
298.15 K, Authors, Dimitar Barkov, Christomir Christov, Todora Ojkova
107. Solubility of RbCl and CsCl in pure water at subzero temperatures, heat
capacity of RbCl (aq) and CsCl (aq) at T= 298.15 K, and thermodynamic
modeling of …, D Gao, D Li, W Li - The Journal of Chemical Thermodynamics,
2017 - Elsevier
Thermodynamics of Formation of Double Salts in the Systems CsClȔMCl2—H2O where M
Denotes Mn, Co, or Cu, Authors, Christomir Christov, Sergei Petrenko
11
108. Solubility of RbCl and CsCl in pure water at subzero temperatures, heat
capacity of RbCl (aq) and CsCl (aq) at T= 298.15 K, and thermodynamic
modeling of …, D Gao, D Li, W Li - The Journal of Chemical Thermodynamics,
2017 - Elsevier
Discontinuities in the mixed-crystal series of isostructural carnallite-type double salts
Authors Christomir Christov
109. Solubility of RbCl and CsCl in pure water at subzero temperatures, heat
capacity of RbCl (aq) and CsCl (aq) at T= 298.15 K, and thermodynamic
modeling of …, D Gao, D Li, W Li - The Journal of Chemical Thermodynamics,
2017 - Elsevier
110. Partition of metallic cations between aqueous solutions and mixed crystals of
hydrated cobalt and nickel nitrates: modelling of the influence of temperature
and …, A Teyssier, JJ Counioux, M Kaddami… - The Journal of Chemical …,
2017 - Elsevier
A simplified model for calculation of the Gibbs energy of mixing in crystals: thermodynamic
theory, restrictions and applicability, Authors Christomir Christov
111. Solubility of RbCl and CsCl in pure water at subzero temperatures, heat
capacity of RbCl (aq) and CsCl (aq) at T= 298.15 K, and thermodynamic
modeling of …, D Gao, D Li, W Li - The Journal of Chemical Thermodynamics,
2017 – Elsevier
112. Temperature Dependence of Mineral Solubility in Water. Part I. Alkaline and
Alkaline Earth Chlorides, BS Krumgalz - Journal of Physical and Chemical
Reference Data, 2017 - aip.scitation.org
INVESTIGATION OF THE MEBR-MGBR2-H2O (ME-K, NH4, RB, CS) SYSTEMS AT 50C,
Автори C Balarew, C Christov
113. Solid-liquid equilibria in the ternary system NaBr–KBr–H2O at 398 K, RZ
Cui, TT Zhang, W Wang, SH Sang - Russian Journal of Physical …, 2017 -
Springer
114. Measurements and calculations of solid-liquid equilibria in the quaternary
system KBr–CaBr2–MgBr2–H2O at (298 and 323) K, RZ Cui, ZC Wang, JS Xu,
SH Sang - Fluid Phase Equilibria, 2017 - Elsevier
Isomorphic co-crystallization of ammonium and rubidium bromocarnallites
Authors, Christomir Christov, Christo Balarew, Stefka Tepavitcharova
12
115. Solubility of RbCl and CsCl in pure water at subzero temperatures, heat
capacity of RbCl (aq) and CsCl (aq) at T= 298.15 K, and thermodynamic
modeling of …, D Gao, D Li, W Li - The Journal of Chemical Thermodynamics,
2017 - Elsevier
116. Understanding the Solid Solution–Aqueous Solution Equilibria in the KCl+
RbCl+ H2O System from Experiments, Atomistic Simulation and Thermodynamic
Modeling, D Li, D Gao, D Zeng, W Li - Journal of Solution Chemistry, 2017 -
Springer
Pitzer Model Based Study of CsX-NiX 2-H 2 O (X= Cl, Br) Systems at 298.15 K,Authors
Christomir Christov
117. Solubility of RbCl and CsCl in pure water at subzero temperatures, heat
capacity of RbCl (aq) and CsCl (aq) at T= 298.15 K, and thermodynamic
modeling of …, D Gao, D Li, W Li - The Journal of Chemical Thermodynamics,
2017 - Elsevier
Thermodynamic study of the co-crystallization of 2RbCl· NiCl 2· 2H 2 O and 2RbCl· MnCl 2·
2H 2 O, at the temperature 298.15 K, Authors Christomir Christov
118. Solubility of RbCl and CsCl in pure water at subzero temperatures, heat
capacity of RbCl (aq) and CsCl (aq) at T= 298.15 K, and thermodynamic
modeling of …, D Gao, D Li, W Li - The Journal of Chemical Thermodynamics,
2017 - Elsevier
Thermodynamic study of aqueous rubidium and cobalt selenate system at the temperature
298.15 K, Authors Dimitar Barkov, Christomir Christov, Todora Ojkova
119. Solubility of RbCl and CsCl in pure water at subzero temperatures, heat
capacity of RbCl (aq) and CsCl (aq) at T= 298.15 K, and thermodynamic
modeling of …, D Gao, D Li, W Li - The Journal of Chemical Thermodynamics,
2017 – Elsevier
Investigation of the aqueous lithium and magnesium halide systems
Автори Chr Christov, Chr Balarew, S Petrenko, Vl Valyashko
120. Solid-liquid equilibria in the ternary system NaBr–KBr–H2O at 398 K, RZ
Cui, TT Zhang, W Wang, SH Sang - Russian Journal of Physical …, 2017 -
Springer
121. Measurements and calculations of solid-liquid equilibria in the quaternary
system KBr–CaBr2–MgBr2–H2O at (298 and 323) K RZ Cui, ZC Wang, JS Xu,
SH Sang - Fluid Phase Equilibria, 2017 – Elsevier
13
Study of (m 1 LiX+m 2 CaX 2)(aq) wheremidenotes molality andXdenotes Cl, or Br at the
temperature 298.15 K Автори Christomir Christov, Snejana Velikova, Kalina Ivanova
122. Solid-liquid equilibria in the ternary system NaBr–KBr–H2O at 398 K,RZ Cui,
TT Zhang, W Wang, SH Sang - Russian Journal of Physical …, 2017 - Springer
123. Measurements and calculations of solid-liquid equilibria in the quaternary
system KBr–CaBr2–MgBr2–H2O at (298 and 323) K, RZ Cui, ZC Wang, JS Xu,
SH Sang - Fluid Phase Equilibria, 2017 - Elsevier
124. Temperature Dependence of Mineral Solubility in Water. Part I. Alkaline and
Alkaline Earth Chlorides, BS Krumgalz - Journal of Physical and Chemical
Reference Data, 2017 - aip.scitation.org 125. Pitzer thermodynamic modeling study on solid–liquid equilibria of the quinary system
LiCl–NaCl–CaCl 2 –SrCl 2 –H 2 O at 298.15 K November 2017, RSC Advances
7(86):54313-54317 DOI 10.1039/C7RA11544J, Lingzong Meng, Dan Li
Thermodynamic study of quaternary systems with participation of ammonium and sodium
alums and chromium alumsАвтори Christomir Christov
126. Behavior of Al(III), Fe(III) and Cr(III) in saline solutions. A Pitzerapproach -
based thermodynamic model for solution behavior and solid-liquid equilibrium in
Na-Al(III)-Fe(III)-Cr(III)-Cl-H2O system at 25°C , Laurent André1,
ChristomirChristov2, ArnaultLassin1, and Mohamed Azaroual1:Full-text available
· Conference Paper · Oct 2017
127. Temperature Dependence of Mineral Solubility in Water. Part I. Alkaline and
Alkaline Earth Chlorides, BS Krumgalz - Journal of Physical and Chemical
Reference Data, 2017 - aip.scitation.org
Thermodynamics of the aqueous sodium and magnesium bromide system at the temperatures
273.15 K and 298.15 K, Автори Christomir Christov
128. Solid-liquid equilibria in the ternary system NaBr–KBr–H2O at 398 K , RZ
Cui, TT Zhang, W Wang, SH Sang - Russian Journal of Physical …, 2017 -
Springer
129. Measurements and calculations of solid-liquid equilibria in the quaternary
system KBr–CaBr2–MgBr2–H2O at (298 and 323) K, RZ Cui, ZC Wang, JS Xu,
SH Sang - Fluid Phase Equilibria, 2017 - Elsevier
Chemical equilibrium model of solution behavior and solubility in the MgCl2-H2O, and HCl-
MgCl2-H2O systems to high concentration from 0oC to 100oCАвтори C Christov
130. Measurements and calculations of solid-liquid equilibria in the quaternary
system KBr–CaBr2–MgBr2–H2O at (298 and 323) K RZ Cui, ZC Wang, JS Xu,
SH Sang - Fluid Phase Equilibria, 2017 - Elsevier
14
Thermodynamic study of (b1LiBr+ b2MgBr2)(aq), wherebdenotes molality, at the
temperature 348.15 K Автори Christomir Christov
131. Solid-liquid equilibria in the ternary system NaBr–KBr–H2O at 398 K , RZ
Cui, TT Zhang, W Wang, SH Sang - Russian Journal of Physical …, 2017 -
Springer
132. Measurements and calculations of solid-liquid equilibria in the quaternary
system KBr–CaBr2–MgBr2–H2O at (298 and 323) K RZ Cui, ZC Wang, JS Xu,
SH Sang - Fluid Phase Equilibria, 2017 - Elsevier
Study of (m1KCl+ m2MeCl2)(aq) and (m1K2SO4+ m2MeSO4)(aq) wheremdenotes molality
and Me denotes Cu, or Ni at the temperature 298.15 K Автори Christomir Christov
133. Temperature Dependence of Mineral Solubility in Water. Part I. Alkaline and
Alkaline Earth Chlorides, BS Krumgalz - Journal of Physical and Chemical
Reference Data, 2017 - aip.scitation.org
Thermodynamic study of the KCl-K 2 SO 4-K 2 Cr 2 O 7-H 2 O system at the temperature
298.15 K Автори Christomir Christov
134. Temperature Dependence of Mineral Solubility in Water. Part I. Alkaline and
Alkaline Earth Chlorides, BS Krumgalz - Journal of Physical and Chemical
Reference Data, 2017 - aip.scitation.org
Thermodynamic study of aqueous sodium and potassium chloride and chromate systems at
the temperature 298.15 K Автори Christomir Christov, Kalina Ivanova, Snejana Velikova,
Stefan Tanev
135. Temperature Dependence of Mineral Solubility in Water. Part I. Alkaline and
Alkaline Earth Chlorides BS Krumgalz - Journal of Physical and Chemical
Reference Data, 2017 - aip.scitation.org
136. Applying a modified Donnan model to describe the surface complexation of
chromate to iron oxyhydroxide agglomerates with heteromorphous pores Z Wei, R
Semiat - Journal of Colloid and Interface Science, 2017 – Elsevier
A thermodynamic model of aqueous electrolyte solution behavior and solid-liquid equilibrium
in the Li-H-Na-K-Cl-OH-H2O system to very high concentrations (40 m...Автори Arnault
Lassin, Christomir Christov, Laurent André, Mohamed Azaroual
137. Darapskite solubility in basic solutions at 25° C: A Pitzer model for the Na NO
3 SO 4 OH H 2 O system A Lach, L André, A Lassin - Applied Geochemistry,
2017 - Elsevier
138. Experimental Data and Modeling of Solution Density and Heat Capacity in the
Na–K–Ca–Mg–Cl–H2O System up to 353.15 K and 5 mol· kg–1 Ionic Strength A
15
Lach, K Ballerat-Busserolles, L Andre… - Journal of Chemical & …, 2017 - ACS
Publications
Thermodynamic Study of the CuCl 2-MCl 2-H 2 O Systems (M= Mg, Co) at 298.15 K Автори
Christomir Christov
139. Temperature Dependence of Mineral Solubility in Water. Part I. Alkaline and
Alkaline Earth Chlorides BS Krumgalz - Journal of Physical and Chemical
Reference Data, 2017 - aip.scitation.org
Thermodynamic study of the aqueous sodium, potassium, and chromium chloride systems at
the temperature 298.15 K Автори Christomir Christov
140. Behavior of Al(III), Fe(III) and Cr(III) in saline solutions. A Pitzerapproach -based
thermodynamic model for solution behavior and solid-liquid equilibrium in Na-Al(III)-
Fe(III)-Cr(III)-Cl-H2O system at 25°C , Laurent André1, ChristomirChristov2,
ArnaultLassin1, and Mohamed Azaroual1:Full-text available · Conference Paper · Oct
2017
Thermodynamic study of the NaCl Na< sub> 2</sub> SO< sub> 4</sub> Na< sub> 2</sub> Cr< sub> 2</sub> O< sub> 7</sub> H< sub> 2</sub> O system at t...Автори Christomir Christov
141. Project: Determination of phase equilibria in multicomponent water-salt systems using
"translation method". Sherali Tursunbadalov (Research Gate)
Pitzer ion-interaction parameters for Fe (II) and Fe (III) in the quinary {Na+ K+
Mg+ Cl+ SO 4+ H 2 O} system at T= 298.15 K AuthorsChristomir Christov
142. Solubility Model for Ferrous Iron Hydroxide, Hibbingite, Siderite, and
Chukanovite in High Saline Solutions of Sodium Chloride, Sodium Sulfate, and
Sodium …S Kim, C Marrs, M Nemer… - ACS Earth and Space …, 2017 - ACS
Publications
Citations in: BS Krumgalz (2017) Journal of Physical and Chemical Reference Data,
Temperature Dependence of Mineral Solubility in Water. Part 1. Alkaline and
Alkaline Earth Chlorides Supplementary Material (5 citations) Table S1-ref. Literature references for sodium chloride solubility
143. Christov, C., Ivanova, K., Velikova, S. and Tanev, S. Thermodynamic study of
aqueous sodium and potassium chloride and chromate systems at the temperature
298.15 K. J. Chem. Thermodynamics, doi:10.1006/jcht.2002.965 (2002).
Table S2-ref. Literature references for potassium chloride solubility
144. Christov, C., Ivanova, K., Velikova, S. and Tanev, S. Thermodynamic study of
aqueous sodium and potassium chloride and chromate systems at the temperature
298.15 K. J. Chem. Thermodynamics, doi:10.1006/jcht.2002.965 (2002).
Table S3-ref. Literature references for magnesium chloride solubility
145. Balarew, C., Christov, C., Valyashko, V. and Petrenko, S. Thermodynamics of
Formation of Carnallite Type Double Salts. J. Sol. Chem. 22, 173-181 (1993).
16
146. Christov, C. Thermodynamic study of the CuCl2-MCl2-H2O systems (M=Mg,
Co) at 298.15 K. Collect. Czech. Chem. Commun., 61, 507-511 (1996).
Table S4-ref. Literature references for calcium chloride solubility
147. Christov, C., Velikova, S. and Ivanova, K. Study of (m1LiX + m2CaX2)(aq)
where mi denotes molality and X denotes Cl, or Br at the temperature 298.15 K. J.
Chem. Thermodynamics, 32, 1505-1512 (2000).
Citations for 2018
BS Krumgalz (2018) Journal of Physical and Chemical Reference Data, Temperature
Dependence of Mineral Solubility in Water. Part 2. Alkaline and Alkaline Earth Bromides
Supplementary Material (19 citations)
Table S1-II-ref. Literature references for sodium bromide solubility
1. Christov C., 1996.Thermodynamics of the aqueous sodium and magnesium
bromide system at the temperatures 273.15 K and 298.15 K. Calphad, 20, 501-
509.
2. Christov, C., 2011. Isopiestic investigation of the osmotic coefficients of aqueous
CaBr2 and study of bromide salt solubility in the NaBr–CaBr2–H2O system at 50
C: Thermodynamic model of solution behavior and solid–liquid equilibria in the
CaBr2–H2O, and NaBr–CaBr2–H2O systems to high concentration and
temperature. CALPHAD, 35, 42–53.
3. Christov, C., 2012. Study of bromide salts solubility in the (m1NaBr +
m2MgBr2)(aq) system at T = 323.15 K. Thermodynamic model of solution
behavior and (solid + liquid) equilibria in the (Na + K + Mg + Br + H2O) system
to high concentration and temperature. J. Chem. Thermodyn., 47, 335-340.
Table S1-II-ref. Literature references for potassium bromide solubility
4. Balarew, C., Christov, C., Valyashko, V. and Petrenko, S., 1993 Thermodynamics
of Formation of Carnallite Type Double Salts. J. Sol. Chem. 22, 173-181.
5. Balarew, C.and Christov, C., 1992. Investigation on the MeBr-MgBr2-H2O (Me-
K, NH4, Rb, Cs) systems at 50C. Comptes rendus de l'Academie bulgare des
Sciences, 45, 49-52.
6. Christov, C., 1998. Thermodynamic study of the KCl-K2SO4-K2Cr2O7-H2O
system at the temperature 298.15 K." Calphad, 22, 449-457.
7. Christov, C., 2011. Isopiestic investigation of the osmotic coefficients of
MgBr2(aq) and study of bromide salts solubility in the (m1KBr + m2MgBr2)(aq)
system at T = 323.15 K. Thermodynamic model of solution behaviour and (solid
+ liquid) equilibria in the MgBr2(aq), and (m1KBr + m2MgBr2) (aq) systems to
high concentration and temperature. J. Chem. Thermodyn., 43, 344-353.
8. Christov, C., 2012. Study of bromide salts solubility in the (m1KBr +
m2CaBr2)(aq) system at T = 323.15 K. Thermodynamic model of solution
behaviour and (solid + liquid) equilibria in the ternaries (m1KBr + m2CaBr2)(aq),
and (m1MgBr2 + m2CaBr2)(aq), and in the quinary (Na + K + Mg + Ca + Br +
H2O) systems to high concentration and temperature," J. Chem. Thermod. 55, 7-
17
22.
Table S3-II-ref. Literature references for magnesium bromide solubility 9. Balarew, C., Christov, C., Valyashko, V. and Petrenko, S. 1993. Thermodynamics of
Formation of Carnallite Type Double Salts. J. Sol. Chem. 22, 173-181.
10. Balarew, C.and Christov, C. 1992. Investigation on the MeBr-MgBr2-H2O (Me-K, NH4,
Rb, Cs) systems at 50C. Comptes rendus de l'Academie bulgare des Sciences, 45, 49-52.
11. Christov C., 1996.Thermodynamics of the aqueous sodium and magnesium bromide
system at the temperatures 273.15 K and 298.15 K. Calphad, 20, 501-509.
12. Christov, C. and Balarew, C., 1994. Effect of temperature on the solubility diagrams of
ammonium bromcarnallite. Collect. Czech. Chem. Commun., 59, 1620-1623.
13. Christov, C., 1995. Thermodynamic study of (b1LiBr + b2MgBr2)(aq), where b denotes
molality, at the temperature 348.15 K. J. Chem. Thermodynamics, 27, 1267-1273.
14. Christov, C., 2011. Isopiestic investigation of the osmotic coefficients of MgBr2(aq) and
study of bromide salts solubility in the (m1KBr + m2MgBr2)(aq) system at T = 323.15 K.
Thermodynamic model of solution behaviour and (solid + liquid) equilibria in the
MgBr2(aq), and (m1KBr + m2MgBr2) (aq) systems to high concentration and temperature.
J. Chem. Thermodyn., 43, 344-353.
15. Christov, C., 2012. Study of bromide salts solubility in the (m1NaBr +
m2MgBr2)(aq) system at T = 323.15 K. Thermodynamic model of solution
behavior and (solid + liquid) equilibria in the (Na + K + Mg + Br + H2O) system
to high concentration and temperature," J. Chem. Thermod. 47, 335-340.
16. Christov, C., Balarew, C., Petrenko, S. and Valyashko, V. 1994. Investigation of the
Lithium and Magnesium Halide Systems. J. Sol. Chem. 23, 595-604.
Table S4-II-ref. Literature references for calcium bromide solubility
17. Christov, C., 2011. Isopiestic investigation of the osmotic coefficients of aqueous
CaBr2 and study of bromide salt solubility in the NaBr–CaBr2–H2O system at 50
C: Thermodynamic model of solution behavior and solid–liquid equilibria in the
CaBr2–H2O, and NaBr–CaBr2–H2O systems to high concentration and
temperature. CALPHAD, 35, 42–53.
18. Christov, C., 2012. Study of bromide salts solubility in the (m1KBr + m2CaBr2)(aq)
system at T = 323.15 K. Thermodynamic model of solution behaviour and (solid +
liquid) equilibria in the ternaries (m1KBr + m2CaBr2)(aq), and (m1MgBr2 +
m2CaBr2)(aq), and in the quinary (Na + K + Mg + Ca + Br + H2O) systems to
high concentration and temperature," J. Chem. Thermodyn., 55, 7-22.
19. Christov, C., Velikova, S. and Ivanova, K., 2000. Study of (m1LiX + m2CaX2)(aq) where
mi denotes molality and X denotes Cl, or Br at the temperature 298.15 K. J. Chem.
Thermodynamics, 32, 1505-1512.
ANDRE L, CHRISTOV C, LASSIN A, Thermodynamic behavior of FeCl3-H2O and
HCl-FeCl3-H2O systems–a Pitzer model at 25 ℃[J]., Procedia Earth. Planet. Sci. 2013, 7:
14-18.
(Interned cashed pages)
20. (2018) pills.com: Tetracycline hcl working concentration : hydrochlorothiazide ...
21. (2018) hydrolysis-of-tert-butyl-chloride-activation-energy.zip
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22. (2018) schwendy1.de/journal/td0x1u.php?ntup=fecl3: Various High Quality
Fecl3 Products from Global Fecl3 Suppliers and Fecl3 Factory,Importer,Exporter
at Alibaba.com.
23. (2018) THE FERRIC HYDROXAMATE TEST FOR ESTERS
24. (2018) fecl3 - WahlburgersAluminum chloride (AlCl3) is a Lewis acid commonly
used for the Friedel Crafts alkylation and acylation reactions, as well as
electrophilic chlorination.
Автоцитати (17 for 2018 ):
Thermodynamic model for solution behavior and solid-liquid equilibrium in Na-Al(III)-
Fe(III)-Cr(III)-Cl-H2O system at 25°C , Laurent André1, Christomir Christov
2,*, Arnault
Lassin1, and Mohamed Azaroual, Аcta Sci. Nat. –Accepted for publication
a. André, L., Christov, C., Lassin, A., Azaroual, M., 2013. Thermodynamic
behaviour of FeCl3-H2O and HCl-FeCl3-H2O systems – A Pitzer model at
25°C. Procedia Earth and Planetary Science,7, 14-18. b. Christov, C., 1998. Thermodynamic study of the KCl-K2SO4-K2Cr2O7-H2O system at the
temperature 298.15 K, CALPHAD, 22, 449-457.
c. Christov, C., 2001a. Thermodynamic study of the NaCl-Na2SO4-Na2Cr2O7-H2O system
at the temperature 298.15 K, CALPHAD, 25, 11-17.
d. Christov, C., 2001b. Thermodynamic study of the K-Mg-Al-Cl-SO4-H2O system at the
temperature 298.15 K. Calphad, 25(3), 445-454.
e. Christov, C., 2002a. Thermodynamics of formation of ammonium, sodium, and
potassium alums and chromium alums, CALPHAD, 26, 85-94.
f. Christov, C., 2002b. Thermodynamic study of quaternary systems with participation
of ammonium and sodium alums and chromium alums, CALPHAD, 26, 341-352.
g. Christov, C., 2003a. Thermodynamic study of aqueous sodium, potassium and
chromium chloride systems at the temperature 298.15 K, J. Chem. Thermodynamics,
35, 909-917.
h. Christov, C., 2003b. Thermodynamic study of the co-crystallization of ammonium,
sodium and potassium alums and chromium alums, CALPHAD, 27, 153-160.
i. Christov, C., 2004. Pitzer ion-interaction parameters for Fe(II) and Fe(III) in the
quinary {Na + K + Mg + Cl + SO4 + H2O} system at T = 298.15 K. J. Chem. Thermodyn.,
36, 223-235.
j. Christov, C., 2005. Thermodynamic of formation of double salts and mixed crystals
from aqueous solutions. J. Chem. Thermodyn., 37, 1036-1060.
k. Christov, C., 2009. Chemical equilibrium model of solution behavior and solubility in
the MgCl2-H2O, and HCl-MgCl2-H2O systems to high concentration from 0oC to 100oC,
J. Chem. Eng. Data, 54, 2599-2608.
l. Christov, C., Ivanova, K., Velikova, S., Tanev, S., 2002. Thermodynamic study of
aqueous sodium and potassium chloride and chromate systems at the temperature
298.15 K, J. Chem. Thermodynamics, 34, 987-994.
m. Christov, C., Moller, N., `2004. A chemical equilibrium model of solution behavior and
solubility in the H-Na-K-Cl-OH-HSO4-SO4-H2O system to high concentration and
temperature, Geochim.Cosmochim. Acta, 68, 1309-1331.
19
n. Christov, C., Dixon, A., Moller N., 2007. Thermodynamic modeling of aqueous
aluminum chemistry and solid liquid equilibria to high solution concentration and
temperature. I. The acidic H-Al-Na-K-Cl-H2O system from 0o to 100oC, J. Solution
Chem., 36, 1495-1523.
o. Lassin, A., Christov, C., André, L., Azaroual, M., 2015. A thermodynamic model of
aqueous electrolyte solution behavior and solid liquid equilibrium in the Li-H-Na-K-Cl-
OH-H2O system to a very high concentrations (40 molal) from 0o to 250oC, American
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