R
Ranjan Dey
Researcher at Birla Institute of Technology and Science
Publications - 59
Citations - 825
Ranjan Dey is an academic researcher from Birla Institute of Technology and Science. The author has contributed to research in topics: Viscosity & Ternary operation. The author has an hindex of 12, co-authored 51 publications receiving 666 citations. Previous affiliations of Ranjan Dey include Allahabad University & Birla Institute of Technology & Science, Pilani - Goa.
Papers
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Biogas generation potential by anaerobic digestion for sustainable energy development in India
TL;DR: The potential of biogas generation from anaerobic digestion of different waste biomass in India has been studied in this article, where the authors have shown that renewable energy from biomass is one of the most efficient and effective options among the various other alternative sources of energy currently available.
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Estimation of molecular radius of liquids and liquid mixtures from sound velocity
TL;DR: In this article, various acoustic methods have been utilized to compute the molecular radius of pure liquids and liquid mixtures at varying conditions, and the results thus obtained have been compared against the values obtained from a non-acoustic method, which uses refractive index data.
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Speed of sound, viscosity and refractive index of multicomponent systems :theoretical predictions from the properties of pure components
TL;DR: Theoretical prediction of speed of sound, viscosity and refractive index of three ternary systems: toluene+ n-heptane + n-hexane (I), cyclohexane+n-heptonane +nhexane(II) and nhexane plus n-decane (III) have been made on the basis of empirical, semi-empirical and statistical mechanical theories using the properties of pure components as mentioned in this paper.
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Non-linearity parameter B/A of binary liquid mixtures at elevated pressures
TL;DR: In this article, a theoretical evaluation of the acoustic nonlinearity parameter B/A of four binary liquid mixtures using Tong and Dong equation at high pressures and T=303.15 K is presented.
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Thermoacoustical approach to the intermolecular free-length of liquid mixtures
TL;DR: In this paper, the intermolecular free-length is evaluated by making use of thermoacoustical parameters followed by a comparative study, and the computed values of Lf have then been compared with the values estimated from well-established thermodynamic and ultrasonic methods.