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Article
Structure formation features of water and concentrated aqueous lithium halide solutions at low temperatures from the data of integral equation method
The structure of water and the influence of halide ions on the structure formation of concentrated LiX : H2O (1 : 5; X = Cl, Br, I) solutions at low temperatures were studied by the method of integral equations. ...
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Article
Structural Parameters of Concentrated Aqueous Solutions of Lithium Chloride under Extreme Conditions, Determined by the Method of Integral Equations: Effect of Isothermal Compression
The structure formation in aqueous solutions of LiCl, LiCl : nH2O (n = 3.15, 8.05, 14.90), under conditions of isothermal compression (T 523 K, P 100-1500 bar) was studied by the method of integral equations. Iso...
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Article
Relationship between the Structural State of Water and the Character of Ion Hydration in Concentrated 1:1 Aqueous Solutions of Electrolytes in Extreme Conditions
It is suggested that the association parameter A be used as an indicator demonstrating the effect of extremal conditions on the structure of water in the series of solutions
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Article
Structural Properties of Concentrated Aqueous Solutions of Lithium Chloride Near the Critical Point of Water as Calculated by the Integral Equation Method
The integral equation method was used to study structure formation in concentrated aqueous solutions of lithium chloride in the near-critical region (P = 20 MPa, T = 298-623 K). It is found that when the LiCl–H2O...
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Article
Structural parameters of concentrated aqueous solutions of LiCl under extreme conditions, as calculated by the method of integral equations. Effect of temperature
Peculiarities of structure formation of aqueous LiCl solutions at different salt : water molar ratios (LiCl : n H2O, n = 3.15, 8.05, 14.90) under conditions of isobaric heating (p = 100 bar, T = 298, 323—523 K, Δ
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Article
Investigation of the structure of concentrated aqueous solution of LiCl at low temperatures by the method of integral equations
Peculiarities of the formation of the structure of aqueous LiCl solution (at a salt: water molar ratio of 1:5.3) in the temperature range 298-138 K were studied by the method of integral equations. Analysis of...