JP Journal of Heat and Mass Transfer

The JP Journal of Heat and Mass Transfer is indexed in Scopus® and specializes in publishing articles related to heat and mass transfer. The journal covers both theoretical and experimental aspects and emphasizes their applications in engineering, electronics, environmental sciences, and nanoscale heat transfer. Additionally, the journal welcomes articles that explore transport-property data, energy engineering, and environmental applications.

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PREDICTION OF COMPLEX PHYSICAL PROCESSES OF HEAT AND MASS TRANSFER IN INHOMOGENEOUS DISPERSED SYSTEMS

Authors

  • Alexander Rozentsvaig

Keywords:

inhomogeneous dispersed systems, transport phenomena, modelling, forecasting.

DOI:

https://doi.org/10.17654/0973576323004

Abstract

Possible approaches to modeling heat and mass transfer in complex and little-studied physical processes are considered. The prognostic possibilities of empirical and theoretical models are discussed. A procedure for matching elementary transport phenomena with each other, realizing various mechanisms for given geometric, physicochemical and regime parameters is proposed.

Received: November 3, 2022;
Revised: November 29, 2022;
Accepted: January 5, 2023;

References

A. Rozentsvaig and C. Strashinskii, Modeling of complex processes in turbulent flow of unstable emulsions of immiscible liquids, Periodica Polytechnica: Chemical Engineering 61(3) (2017), 216-226.

W. Ge, Q. Chang, C. Li and J. Wang, Multiscale structures in particle-fluid systems: characterization, modeling, and simulation, Chem. Eng. Sci. 198 (2019), 198-223.

A. Rozentsvaig and Ch. Strashinskii, Identification of models of transfer processes in complex disperse systems, Appl. Math. Sci. 10(21-24) (2016), 1151-1161.

J. Solsvik, S. Tangen and H. A. Jakobsen, On the constitutive equations for fluid particle breakage, Reviews in Chemical Engineering 29(5) (2013), 241-356.

M. Ishii and T. Hibiki, Thermo-fluid Dynamics of Two-phase Flow, Springer Science + Business Media, Inc., New York, 2006.

http://dx.doi.org/10.1007/978-0-387-29187-1.

C. Xing, T. Wang and J. Wang, Experimental study and numerical simulation with a coupled CFD-PBM model of the effect of liquid viscosity in a bubble column, Chem. Eng. Sci. 95 (2013), 313-322.

D. Ramkrishna, Population Balances. Theory and Applications to Particulate Systems in Engineering, Academic Press, New York, 2000.

A. Rozentsvaig and Ch. Strashinskii, Droplets behavior of subcooled dispersed phase under nucleate boiling of continuous phase of liquid emulsion, Int. J. Heat Mass Transfer 125 (2018), 1274-1283.

A. Rozentsvaig, Hybrid modeling of complex physical processes in dispersed liquid systems, JP Journal of Heat and Mass Transfer 26 (2022), 53-59.

A. Rozentsvaig, Modeling of conjoint processes of heat transfer in emulsions of nonmixing liquids, JP Journal of Heat and Mass Transfer 19(1) (2020), 195-200.

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Published

2023-01-23

Issue

Vol. 31 (2023)

Section

Articles

License

Copyright (c) 2023 Pushpa Publishing House, Prayagraj, India

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This work is licensed under a Creative Commons Attribution 4.0 International License.

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How to Cite

PREDICTION OF COMPLEX PHYSICAL PROCESSES OF HEAT AND MASS TRANSFER IN INHOMOGENEOUS DISPERSED SYSTEMS. (2023). JP Journal of Heat and Mass Transfer, 31, 45-50. https://doi.org/10.17654/0973576323004

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