Densities, Viscosities and Apparent Molar Volumes of KClO3 in Water and Some Aqueous Electrolyte Solutions at Different Temperatures
International Journal of Applied Chemistry |
© 2016 by SSRG - IJAC Journal |
Volume 3 Issue 3 |
Year of Publication : 2016 |
Authors : Arun B. Nikumbh, Meenakshi V. Rathi |
How to Cite?
Arun B. Nikumbh, Meenakshi V. Rathi, "Densities, Viscosities and Apparent Molar Volumes of KClO3 in Water and Some Aqueous Electrolyte Solutions at Different Temperatures," SSRG International Journal of Applied Chemistry, vol. 3, no. 3, pp. 1-6, 2016. Crossref, https://doi.org/10.14445/23939133/IJAC-V3I5P102
Abstract:
The densities and viscosities of KClO3 in water and aqueous solutions of some electrolytes like potassium chloride, potassium nitrate and ammonium nitrate have been measured at the temperatures (298.15, 303.15, 308.15,and 313.15)K.Six different concentrations ranging from 0.0065 to 0.0365 M were prepared. The apparent molar volumes ( ) and viscosity B coefficients of these salts are obtained. The limiting apparent molar volumes ( ) and experimental slopes ( ) derived from the Masson’s equation have been interpreted in terms of ion-solvent and ion-ion interactions, respectively. The viscosity data have been analyzed using the Jones-Dole equation, and the derived parameters B and A have also been interpreted in terms of ion-solvent and ion-ion interactions. The structure making/breaking capacities of these salts investigated have been discussed.
Keywords:
KClO3, density, viscosity, B-coefficient, apparent molar volumes.
References:
[1] Washburn, E.W., Ed. „International Critical Tables of Numerical Data‟,Physics, Chemistry and Technology; McGraw-Hill: New York, (1928); Vol. III.
[2] Sohnel, O.; Novotny, P.,„Densities of Aqueous Solutions of Inorganic Substances, Elsevier: Amsterdam(1985).
[3] Zaytsev, I. D.; Aseyev, G. G.,„Properties of Aqueous Solutions ofElectrolytes, CRC Press: Boca Raton, FL, (1992).
[4] Chandra, A.; Bagchi, B. J.,„Beyond the Classical Transport Laws of Electrochemistry: New Microscopic Approach to Ionic Conductance and Viscosity, Phys. Chem. Vol. 104, pp 9067-9080, 2000.
[5] Redllich, O.; and Meyer, D. M., „The Molal Volumes of Electrolytes‟, Chem. Rev., Vol.64, pp 221, 1964.
[6] Masson, D. O., Solute Molecular Volumes in Relation to The Solvation and Ionization, Phil. Mag., Vol. 8, pp 218- 223,1929.
[7] Jones, G.; Dole, M., „The Viscosity of Aqueous Solutions of Strong Electrolytes with special reference to Barium Chloride, J. Am. Chem. Soc., Vol. 51, pp 2950-2964, 1929.
[8] Roy, M. N.; Jha, A.; Dey, R.„Study of Ion−Solvent Interactions of Some Alkali Metal Chlorides in Tetrahydrofuran + Water Mixture at Different Temperatures‟, J. Chem. Eng. Data,Vol. 46, pp 1247-1252, 2001.
[9] Garcia-Panedo, E.; Yanes, C.; Calvente, J. J.; Maestre, A.,Densities, Viscosities and Adiabatic Compressibilities of Some Mineral Salts in Water at Different Temperatures, J. Chem. Soc. Faraday Trans.,Vol. 94, pp 573-379, 1994.
[10] Monnin, C.,An Ion Interaction Model for the Volumetric Properties of Natural Waters: Density of the Solution and Partial Molal Volumes of Electrolytes to High Concentrations at 25°C, Geochim. Cosmochim. Acta, Vol. 53, pp 1177-1188, 1989.
[11] Nikam, P. S.; Nikumbh, A. B., “Ionic Viscosity BCoefficients of Tetraalkyl Ammonium Chlorides in (0 to 100) Mass Water + Methanol at 298.15K”, J. Chem. Eng. Data,Vol.47, pp400-404, 2002.
[12] Hepler, L. G., Apparent molar volumes and viscosity Bcoefficients of nicotinamide in aqueous tetrabutylammonium bromide solutions at T = (298.15, 308.15, and 318.15) K, Can. J. Chem., Vol.47, pp 4617- 4622, 1969.