Indian Journal of Science and Technology

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Surface Tension and Derived Surface Thermodynamic Properties of Aqueous Sodium Salt of L-Phenylalanine


Affiliations
1 Research Centre for CO2 Capture (RCCO2C), Department of Chemical Engineering, Universiti Teknologi PETRONAS, Seri Iskander, Perak Darul Ridzuan 32610, Malaysia
 

Objectives: To investigate experimental data of surface tension of aqueous sodium salt of L-phenylalanine (Na-Phe) at temperatures ranging from 298.15 to 343.15 K and concentration ranging from 0.05 to 0.40 (w). Methodology: This work was carried out through an optical contact angle tensiometer (OCA 15 EC). It is a video based instrument which employs a pendant drop method for contact angle measurement. Findings: It was observed that surface tension values rise as aqueous Na-Phe concentration increases and decrease with the increase in system’s temperature. Experimental surface tension data were used to calculate the dervied surface thermodynamic properties such as surface enthalpy and entropy. Surface enthalpy was found to increase with concentration and tend to decrease with the rise in temperature. While, estimated surface entropy values were found to decrease with the increase in Na-Phe concentration. Temperature and concentration dependent empirical correlation was utilized to predict the surface tension data. A good agreement was found between the experimental and correlated data. Applications/Improvements: The findings reported in this study could be helpful significantly for the selection of appropriate solvent, and in the calculations for the efficient design of absorption column.

Keywords

L-Phenylalanine, Surface Tension, Sodium Salt, Surface Enthalphy, Surface Entropy.
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  • Surface Tension and Derived Surface Thermodynamic Properties of Aqueous Sodium Salt of L-Phenylalanine

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Authors

Sahil Garg
Research Centre for CO2 Capture (RCCO2C), Department of Chemical Engineering, Universiti Teknologi PETRONAS, Seri Iskander, Perak Darul Ridzuan 32610, Malaysia
A. M. Shariff
Research Centre for CO2 Capture (RCCO2C), Department of Chemical Engineering, Universiti Teknologi PETRONAS, Seri Iskander, Perak Darul Ridzuan 32610, Malaysia
M. S. Shaikh
Research Centre for CO2 Capture (RCCO2C), Department of Chemical Engineering, Universiti Teknologi PETRONAS, Seri Iskander, Perak Darul Ridzuan 32610, Malaysia
Bhajan Lal
Research Centre for CO2 Capture (RCCO2C), Department of Chemical Engineering, Universiti Teknologi PETRONAS, Seri Iskander, Perak Darul Ridzuan 32610, Malaysia
Asma Aftab
Research Centre for CO2 Capture (RCCO2C), Department of Chemical Engineering, Universiti Teknologi PETRONAS, Seri Iskander, Perak Darul Ridzuan 32610, Malaysia
Nor Faiqa
Research Centre for CO2 Capture (RCCO2C), Department of Chemical Engineering, Universiti Teknologi PETRONAS, Seri Iskander, Perak Darul Ridzuan 32610, Malaysia

Abstract


Objectives: To investigate experimental data of surface tension of aqueous sodium salt of L-phenylalanine (Na-Phe) at temperatures ranging from 298.15 to 343.15 K and concentration ranging from 0.05 to 0.40 (w). Methodology: This work was carried out through an optical contact angle tensiometer (OCA 15 EC). It is a video based instrument which employs a pendant drop method for contact angle measurement. Findings: It was observed that surface tension values rise as aqueous Na-Phe concentration increases and decrease with the increase in system’s temperature. Experimental surface tension data were used to calculate the dervied surface thermodynamic properties such as surface enthalpy and entropy. Surface enthalpy was found to increase with concentration and tend to decrease with the rise in temperature. While, estimated surface entropy values were found to decrease with the increase in Na-Phe concentration. Temperature and concentration dependent empirical correlation was utilized to predict the surface tension data. A good agreement was found between the experimental and correlated data. Applications/Improvements: The findings reported in this study could be helpful significantly for the selection of appropriate solvent, and in the calculations for the efficient design of absorption column.

Keywords


L-Phenylalanine, Surface Tension, Sodium Salt, Surface Enthalphy, Surface Entropy.



DOI: https://doi.org/10.17485/ijst%2F2016%2Fv9i29%2F131778