A. B. Zeinalova scite author profile

Apparent and Partial Molar Volumes / Density / B-Coefficient / Sodium Carbonate / Viscosity / WaterDensity of five (0.124, 0.334, 0.706, 1.055, and 1.123) mol kg −1 and viscosity of seven (0.124, 0.2918, 0.334, 0.706, 0.8472, 1.055, and 1.123) mol kg −1 binary aqueous Na 2 CO 3 solutions have been measured with a constant-volume piezometer and capillary flow techniques, respectively. Measurements were performed at pressures up to 52 MPa for the density and 40 MPa for the viscosity. The range of temperature was from 299 to 577 K for density and from 293 to 478 K for the viscosity. The total uncertainty of density, viscosity, pressure, temperature, and composition measurements was estimated to be less than 0.06%, 1.6%, 0.05%, 15 mK, and 0.02%, respectively. Apparent molar volumes were derived using measured values of density for the solutions and for pure water calculated with IAPWS formulation. The effect of the thermodynamic variables (temperature, pressure, and concentration) on density, apparent and partial molar volumes, and viscosity of Na 2 CO 3 (aq) solutions was studied. The derived apparent molar volumes have been interpreted in terms of the Pitzer's ion-interaction model of electrolyte solutions to accurate calculates the values of partial molar volumes at infinite dilution V ∞ 2 and the second (B V ) and third (C V ) virial coefficients for the apparent molar volume as a function of temperature. The viscosity data have been analyzed and interpreted in terms of extended Jones-Dole equation for the relative viscosity (η/η 0 ) of strong electrolyte solutions to accurate calculate the values of viscosity A-and B-coefficients as a function of temperature. The Arrhenius-Andrade parameters η A and b = E a /R (where E a is the flow activation energy) were calculated using present experimental viscosity data. The effective pressures P e due to the salt (Na 2 CO 3 ) in water in the TTG (Timmann-Tait-Gibson) model were calculated from present viscosity measurements.

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The Density and Partial Molar Volume of Aqueous Solutions of Nickel Nitrate at High Parameters of State

Azizov

Zeinalova

2004

High Temperature

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A. B. Zeinalova

Experimental viscosity B-coefficients of aqueous LiCl solutions

Viscosities, densities, apparent and partial molar volumes of concentrated aqueous MgSO₄solutions at high temperatures and high pressures

Viscosity of aqueous Ni(NO3)2 solutions at temperatures from (297 to 475) K and at pressures up to 30 MPa and concentration between (0.050 and 2.246) mol·kg−1

Density, Apparent and Partial Molar Volumes, and Viscosity of Aqueous Na₂CO₃Solutions at High Temperatures and High Pressures

The Density and Partial Molar Volume of Aqueous Solutions of Nickel Nitrate at High Parameters of State

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A. B. Zeinalova

Experimental viscosity B-coefficients of aqueous LiCl solutions

Viscosities, densities, apparent and partial molar volumes of concentrated aqueous MgSO4solutions at high temperatures and high pressures

Viscosity of aqueous Ni(NO3)2 solutions at temperatures from (297 to 475) K and at pressures up to 30 MPa and concentration between (0.050 and 2.246) mol·kg−1

Density, Apparent and Partial Molar Volumes, and Viscosity of Aqueous Na2CO3Solutions at High Temperatures and High Pressures

The Density and Partial Molar Volume of Aqueous Solutions of Nickel Nitrate at High Parameters of State

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Product

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Viscosities, densities, apparent and partial molar volumes of concentrated aqueous MgSO₄solutions at high temperatures and high pressures

Density, Apparent and Partial Molar Volumes, and Viscosity of Aqueous Na₂CO₃Solutions at High Temperatures and High Pressures