Add to ORKGAn algorithm developed at Oak Ridge National Laboratory accurately and quickly predicts thermodynamic properties of concentrated aqueous salt solutions. This algorithm is much simpler and much faster than other modeling schemes and is unique because it can predict solution behavior at very high concentrations and under varying conditions. Typical industrial applications of this algorithm would be in manufacture of inorganic chemicals by crystallization, thermal storage, refrigeration and cooling, extraction of metals, emissions controls, etc
Thermodynamically consistent models based on accurately measured data are required for reliable pred...
International audienceIn the recent years, the need to improve the thermodynamic models, particularl...
An investigation is described into the thermodynamic modelling of aqueous electrolyte solutions. Sol...
AbstractChemical fertilizers, such as potassium chloride, ammonium nitrate and other chemical produc...
Graduation date: 1989Chemical equilibrium is a major factor in many natural and\ud industrial system...
Models that accurately predict solid–solute phase equilibria in aqueous electrolyte solutions are of...
A comprehensive model has been established for calculating thermodynamic properties of multicomponen...
Solution density modelling is important in hydrometallurgical processes as accurate predictions of s...
Chemical fertilizers, such as potassium chloride, ammonium nitrate and other chemical products like ...
While thermodynamic properties of pure aqueous electrolytes are relatively well known at ambient tem...
Organic salt crystallisation is of great importance to the pharmaceutical industry as the majority o...
A complete framework to measure and anticipate the salt concentration during crystallization process...
The vapor pressure of saturated aqueous salt solutions as functions of temperature have been measur...
A thermodynamic model for electrolyte solutions has been derived for binary and multicomponent solut...
The refractive indices of solutions of the alkali halides and nitrates were determined at 25 ° and f...
Thermodynamically consistent models based on accurately measured data are required for reliable pred...
International audienceIn the recent years, the need to improve the thermodynamic models, particularl...
An investigation is described into the thermodynamic modelling of aqueous electrolyte solutions. Sol...
AbstractChemical fertilizers, such as potassium chloride, ammonium nitrate and other chemical produc...
Graduation date: 1989Chemical equilibrium is a major factor in many natural and\ud industrial system...
Models that accurately predict solid–solute phase equilibria in aqueous electrolyte solutions are of...
A comprehensive model has been established for calculating thermodynamic properties of multicomponen...
Solution density modelling is important in hydrometallurgical processes as accurate predictions of s...
Chemical fertilizers, such as potassium chloride, ammonium nitrate and other chemical products like ...
While thermodynamic properties of pure aqueous electrolytes are relatively well known at ambient tem...
Organic salt crystallisation is of great importance to the pharmaceutical industry as the majority o...
A complete framework to measure and anticipate the salt concentration during crystallization process...
The vapor pressure of saturated aqueous salt solutions as functions of temperature have been measur...
A thermodynamic model for electrolyte solutions has been derived for binary and multicomponent solut...
The refractive indices of solutions of the alkali halides and nitrates were determined at 25 ° and f...
Thermodynamically consistent models based on accurately measured data are required for reliable pred...
International audienceIn the recent years, the need to improve the thermodynamic models, particularl...
An investigation is described into the thermodynamic modelling of aqueous electrolyte solutions. Sol...