International Journal of Applied Science and Engineering
Published by Chaoyang University of Technology

R. Baskarana and T. R. Kubendranb1

Department of Chemical Engineering, St. Joseph’s College of Engineering, Old mahabalipuram Road, Chennai -119, India.
Department of Chemical Engineering, Alagappa College of Technology, Anna University, Chennai-600025, India.

 

Download Citation: |
Download PDF


ABSTRACT

The studies of ultrasonic velocities, refractive indices and surface tension are being increasingly used as tools for investigation of the properties of pure components and the nature of intermolecular interactions between the liquid mixture constituents. Refractive indices (nD), ultrasonic velocities (U) and surface tension (σ) have been measured for the binary liquid mixture of Anisaldehyde +benzene over the entire composition range at 313.15 K. This study involves the evaluation of different thermo acoustical parameters along with the excess properties. The Redlich-Kister model was used to correlate the measured properties. It was found that in all cases, the experimental data obtained fitted with the values correlated by the corresponding models very well. The molecular interactions existing between the components were also discussed.


Keywords: Anisaldehyde; refractive indices; ultrasonic velocity; thermo acoustical; surface tension.


Share this article with your colleagues

 


REFERENCES

  1. [1] Ewing, M. B., Levian, B. J., and Marsh, K. N. 1970. Excess enthalpies, excess volume and excess Gibbs free energy for mixtures of cyclooctane +cyclopentane at 288. 15, 298. 15 and 308.15K. Journal of Chemical Thermodynamics, 2: 689 - 691.

  2. [2] Mchaweh, A., Alsaygh, A., and Moshfeghian, M. A. 2004. A simplified method for calculating saturated liquid densities. Fluid phase equilibria, 224: 157-167.

  3. [3] Yadava, S. S., and Anirudh, Y. 2005. Ultrasonic study on binary liquid mixtures between some bromoalkanes and hydrocarbons. Ultrasonics, 43: 732-735.

  4. [4] Redlich, O., and Kister, A. T. 1948. Algebraic representation of thermodynamic Properties and the classification of solutions. Industrial & Engineering Chemistry, 40: 345-350.

  5. [5] Kamila, S., Chakravarthy, V., and Jena, S. 2004. Studies on acoustic behavior, viscosity, and density of some commercial extractants and their molecular interaction with diluent, modifier and extractant. Journal of Solution Chemical, 33: 365-380.

  6. [6] Jacobson, B. 1952. Compressiblity of binary liquid mixtures.  Acta Chemica Scandinavica, 6:485-487.

  7. [7] Pineiro, A., Brocas, P., Amigo, A., Pinto, M and Bravo, R. 1999. Surface tension and refractive indices of tetrahydrofurans and n-alkanes at 298.15 K. Journal of Chemical Thermodynamics, 31:931-942.

  8. [8] Karla Granados and Jesus Gracia Fredrique.2006. Refractive index, surface tension and density of aqueous mixture of carboxylic acids at 298.15K. Journal of Chemicl and Engineering Data, 51:1473-1478.

  9. [9] Eyring, H., and Kincaid, J. F. 1938. Free volume and free angle ratio of molecules in liquids, Journal of Chemical Physics, 6: 620-625.

  10. [10] Baluja, S., and Oja, S. 2001. Studies of some acoustical properties in binary solutions. Fluid phase equilibria, 178: 233-238.

  11. [11] Aralaguppi, M., I, Jadar, C. V., and Amical Thermodynamics, 11:861-873.

  12. [12] Kiyohara, O., and Benson, G. C. 1979. Ultrasonic speeds and isentropic Compressibility of n alkanol +n heptane mixture at 298.15 K. Journal of Chemi-cal Thermodynamics, 11:861-873.

  13. [13] Yang, C., Lal, H., and Ma, P. 2006. Density and viscosity of binary mixtures of diethyl carbonate with alcohols at 293.15 to 363.15 K and predictive results by unifac visco group contribution method, Journal of Chemicl and Engineering Data, 51:1345-1358.

  14. [14] Susmita, K., Satyaban, J and Bipin, B. S. 2005. Studies on some thermo acoustical parmeters in binary liquid mixtures of phosphoric acid with different diluents at temperature 303.15K : Ultrasonic study. Journal of Chemical Thermodynamics, 37: 820-825.

  15. [15] Kyu, J. H., Jong, H. O., and So-Jin, P. 2006. Densities and viscosities of ternary systems of methyl tert –butyl ether+methanol+benzene and their sub binary systems Journal of Chemicl and Engi-neeringData, 51: 1339-1344.

  16. [16] Viswanathan, S., Rao, M. A., and Prasad, D. H. L. 2000. Densities and viscosities of binary liquid mixture of anisole or methyl tertiary butyl ether with benzene, chlorobenzene, benzonitrile and nitrobenzeneJournal of Chemicl and EngineeringData, 45:764-770.


ARTICLE INFORMATION



Accepted: 2008-01-21
Available Online: 2007-12-01


Cite this article:

R., Baskarana, Kubendran, T.R. 2007. Refractive indices, Ultrasonic velocities, Surface tension and thermo acoustical parameters of Anisaldehyde + Benzene at 313.15 K. International Journal of Applied Science and Engineering, 5, 115–122. https://doi.org/10.6703/IJASE.2007.5(2).115

Other people also read ...

doaj logo

 

2.3
2022CiteScore
 
 
48th percentile
Powered by  Scopus
 
 

SCImago Journal & Country Rank

IJASE - Most Read Articles

IJASE - Most popular articles