International Journal of Chemical Engineering and Processing

The ultrasonic velocity (u), density (ρ) and viscosity (η) have been restrained for binary mixtures of 4-methyl-2-pentanone with butan-2-one, cyclohexanone and furfuraldehyde at temperature T=308K at changed mole fractions. The experimental data have been used to calculate the acoustical and thermo-dynamical parameters like adiabatic compressibility (βad), free length (Lf), free volume (Vf), internal pressure (πi), acoustical impedance, Gibb’s free energy and their excess volumes in particular, it is seen that the response of these parameters to frequency is less prominent in to comparison to that of the binary mixtures containing 4-methyl-2-pentanone with butan-2-one, cyclohexanone and furfuraldehyde. Molecular interface studies with ultrasonic method in the binary liquid mixtures of 4-methyl-2-pentanone+butan-2-one, 4-methyl-2-pentanone+cyclohexanone and 4-methyl-2-pentanone+furfuraldehyde have been conceded out at 308 K. Using the dignified values of ultrasonic velocity, density and viscosity, acoustical parameters and their additional values are estimated. The necessity of glut properties of mixture compositions were associated and discuss in terms of the intermolecular free length and other elements moving the salvation and self-association effect. From the belongings of these glut parameters the nature and strength of the interfaces in these binary systems are discussed.

Tabhane V.A., Patki B.A. Acostica. 1982; 52: 44p.

Tabhane V.A. Acoustic Lett. 1988; 6: 8p.

Marvin B.L., Bhat S.N. Acostica. 1987; 64: 155p.

Johari G.K., Misra R.C. Indian J Pure Appl Phys. 1987; 29: 155p.

Nikam P.S., Hirey. Indian J Pure Appl Phys. 1991; 29: 155p.

Gruenberg L., Nissan. Nature. 1946; 164: 799p.

Menorah Murtha N., Nagbhushnam. Indian J Chem. 1984; 23: 510p.

Khasare S.B. Indian J. Pure Appl Phys. 1987; 25: 182p.

Jacobson B. Acta Chem. 1985; 6: 148p.

Bhatti S.S., Singh D.P. Indian J Pure Appl Phys. 1983; 21: 506p.

Sheshadri A.T., Subramanyam B. J Physconds Matter. 1990; 2: 7353p.

Manohar Murthi N., Shivkumar K.V., Rajgopal E., Subramanyam S.V., Acostica. 1981; 48: 341p.

Miyanga Stamura K., Murakami S. J Chem Thermody. 1992; 48: 1767p.

Vigourex P. Ultrasonics. London: Chapman and Hall; 1952.

Rajgopal K., Chenthilnath. Indian J Pure Appl Phys. 2010; 48: 326p.

Hirschfelder J.O., Kurtiss C.F., Bird R.B. Molecular Theory of Gases and Liquids. New York: John Willy; 1954, 256p.

Sumathi T., Maheswari U. Indian J Pure Appl Phys. 2009; 47: 782p.

Rajedren V., Indian J Pure Appl Phys. 1996; 34: 52p.

Shanti N., Subrathinam P.L., Emayavayramban M. 2010; 7: 648p.

Bhatti S.S., Vivek J.S., Singh D.P. Acoustica. 1982; 50: 291p.

Palaniappan L., Thiyagarajan R. Indian J Chem. 2008; 47B: 1906p.

Hyderkhan V., Subramanyam S.V. Tras Parad Soc. 1971; (GB) 67: 2282p.

Temperley H.N.V., Rawlinson J.S., Rush Brooke G.S. Phys. of Simple Liquids. New York: John Wiley; 1968.

Glasstone S., Laidler K.J., Erying H. Theory of Rate Processes. New York: Mc. Graw – Hill; 1950, 478, 479p.

Erying H., Kincaid J.F.J. Chem Phys. 1938; 6: 520p.

Richards T.W. Chem Rev. 1925; 2: 315p.

Vanderwaals J.D. Essay on the Continuity of the Gaseous and Liquid States. London; 1873.

Glasstone S. Thermodynamic for Chemist. New York: D. van Mostrand Co., Inc.; 1947, 62p.

Ali A., Hyder S., Nain A.K. Ind J Phys. 2000; 74B: 63p.