Mathematical modeling of the dynamics of heat and mass transfer, phase transformations and thermal decomposition at high temperature drying of biomass

Alternative and non-conventional energy sources
Proceedings of the 2nd International Scientific Conference «Chemical Technology and Engineering»: June 24–28, 2019, Lviv: Lviv Polytechnic National University, 2018, pp. 299–302

Authors

First and Last Name Academic degree E-mail Affiliation
Natalia Sorokova Sc.D. n.sorokova [at] ukr.net Institute of Engineering Thermophysics of the National Academy of Sciences of Ukraine
Kiev, Ukraine
Dmytro Korinchuk Ph.D. ntps [at] i.ua Institute of Engineering Thermophysics of the National Academy of Sciences of Ukraine
Kiev, Ukraine

I and my co-authors (if any) authorize the use of the Paper in accordance with the Creative Commons CC BY license

First published on this website: 15.04.2019 - 15:21
Abstract

A mathematical model and method for calculating heat and mass transfer, phase transformations and shrinkage during drying of colloidal porous bodies in the form of a final cylinder are presented. A mathematical simulation of high-temperature drying of willow accompanied by the destruction of hemicellulose was carried out using the data obtained on the values of the activation energy of various types of biomass.

References

[1] N.N. Sorokovaya, D.N. Korinchuk, “Mathematical model and method for calculating the dynamics of drying and thermal decomposition of biomass”, Scientific works (Odessa National Academy of Food Technologies), Out. 1, vol. 82. pp 66 – 72, 2018.

[2] N.I. Nikitenko, Yu.F. Snezhkin, N.N. Sorokovaya, “Mathematical simulation of heat and mass transfer, phase conversions, and shrinkage for optimization of the process of drying of thermolabile materials”, Journal of Engineering Physics and Thermophysics, vol.78, no. 1, pp 75–89, January 2005..

[3] N.I. Nikitenko, “Problems of the radiation theory of heat and mass transfer in solid and liquid media”, Inzhenerno-Fizicheskii Zhurnal, vol.73, no 4, pp 840-848, January 2000.

[4] N.I. Nikitenko, “Investigation of the Dynamics of Evaporation of Condensed Bodies on the Basis of the Law of Spectral-Radiation Intensity of Particles”, Journal of Engineering Physics and Thermophysics, vol.75, no. 3, pp. 684–692, May 2002.

[5] N.I. Nikitenko, Yu.F. Snezhkin, N.N. Sorokovaya, Yu.N. Kolchik, Molecular radiation theory and methods for calculating heat and mass transfer. Kiev: Naukova Dumka, 2014.

[6] A.V. Lykov, Theory of drying. Moscow: Energy, 1968.

[7] N.I. Nikitenko, Yu.N. Kol'chik, “Method of canonical elements for modeling the transfer processes in multiply connected domains of arbitrary shape”, Journal of Engineering Physics and Thermophysics, vol.72, no 5, pp 808–814, September 1999.

[8] D.N. Korinchuk, “Non-isothermal analysis of the components of composite fuels based on peat and biomass”, Energetika і avtomatika, no 1, pp. 56–71, 2018.

Official paper