Modelling the Heat and Mass Transfer in Devices with Dense-Layer Dispersed Systems

Krenický, Tibor; Dyadyura, Kostiantyn; Kokhan, Olexandr; Umynskyi, Serhii

doi:10.2478/mspe-2025-0046

Abstract

The work is devoted to the processes of heat and mass transfer in moving and stationary dense layers of dispersed materials. One and two-component models of heat and mass transfer in a layer with internal heat sources caused by chemical and phase transformations in the presence of submerged heat exchange processes are given. A review of the literature showed that for a layer containing heat sources, not only information on these parameters is missing, but also methods for their determination. This paper describes the theoretical basis that forms the analytical dependencies of such methods. Satisfactory qualitative and quantitative agreement between experimental and calculated data indicates that the models accurately describe the main patterns of heat transfer in a blown layer with submerged heat transfer surfaces. The research results showed that when calculating temperature fields, reliable information is needed on the heat transfer coefficients of the layer and its components.

References

Zhang, Y., Qi, X., Zhang, L. et al. “Structural characteristics and low-temperature oxidation thermodynamic properties of coal and gangue in the same coal seam.” J Therm Anal Calorim, vol. 149, pp. 7717-7734, 2024.
Search in Google Scholar Back to article
Han, Z., Liu, Y., Wang, C. et al. “Experimental study on heat transfer efficiency of pyrotechnics enhanced by gas generator.” J Therm Anal Calorim, vol. 149, pp. 12111-12126, 2024.
Search in Google Scholar Back to article
Panda, A., Dyadyura, K., Kokhan, O. “Increase of technological indicators used in the energy industry.” MM Science Journal, pp. 7724-7730, 2024.
Search in Google Scholar Back to article
Panda, A., Dyadyura, K., Mokiy, A. “Nonlinear dynamics methods applications to product lifecycle management.” MM Science Journal, pp. 7325-7331, 2024.
Search in Google Scholar Back to article
Gaesenngwe, G., Danha, G., Mamvura, T.A., et al. “Coal structure evaluation and morphological properties that affect the coal usage in industries.” Discov Geosci. vol. 2, 85, 2024.
Search in Google Scholar Back to article
Wang, J., Liu, X. “Study on heat transfer law of moving temperature variable gas in thermoacoustic plate stack.” Sci Rep, vol. 14, 9486, 2024.
Search in Google Scholar Back to article
Dyadyura, K., Oborskyi, G., Prokopovych, I., Khamitov, V., Holubiev, M. “Optimal Management in the Operation of Complex Technical Systems.” Journal of Engineering Sciences, vol. 11, no. 1, B1-B9, 2024.
Search in Google Scholar Back to article
Krenický, T., Dyadyura, K., Dmitrishin, D., Grybniak, S., Prokopovich, I. “Application of methods of decentralised systems in management in lean manufacturing.” Management Systems in Production Engineering, vol. 31, no. 4, pp. 427-433, 2023.
Search in Google Scholar Back to article
Zhang, X., Shao, Q., Liu, J., et al. “Recent Development of Heat Transfer and Fluid Flow of Supercritical CO₂ in Tubes: Mechanisms and Applications.” J Therm Sci, vol. 33, pp. 2274-2298, 2024.
Search in Google Scholar Back to article
Golik, V.I., Klyuev, R.V., Martyushev, N.V. et al. “Mechanical Activation of Coal Mining and Enrichment Tailings.” Coke Chem, vol. 67, pp. 407–412, 2024.
Search in Google Scholar Back to article
Zi, J., Long, W., Liu, Y., et al. “Numerical simulation of heat transfer performance and convective vortex evolution in a phase change thermal storage device with dispersed heat sources.” Heat Mass Transfer, vol. 60, pp. 1613-1627, 2024.
Search in Google Scholar Back to article
Akulich, P.V., Slizhuk, D.S. and Akulich, A.V. “Heat and Mass Transfer in a Vibrofluidized Bed of Vegetable Materials with Radiative-Convective Power Input.” J Eng Phys Thermophy, vol. 97, pp. 1808-1813, 2024.
Search in Google Scholar Back to article
Kumar, N., Karmakar, S., Kumar, D. et al “Energy Conversion through Hybrid Renewable Energy System (HRES) from Solid Waste and Its Economic Assessment.” Waste Biomass Valor, vol. 15, pp. 6977-6995, 2024.
Search in Google Scholar Back to article
Kim, H.K., Kim, T.Y., Kim, Y.H. et al. “Thermophotovoltaic performance of a porous medium combustor with external heat recovery and multiple injectors.” J Mech Sci Technol, vol. 36, pp. 4315-4325, 2022.
Search in Google Scholar Back to article
Brich, M.A., Gorbachev, N.M., Koznacheev, I.A. et al. “Assessment of the Possibility of Microwave Biomass Torre-faction Using the Heat of an Exothermic Decomposition Reaction.” J Eng Phys Thermophy, vol. 97, pp. 1770-1778, 2024.
Search in Google Scholar Back to article
Korzyuk, V.I., Rudko, Y.V. “Development of Fushchich’s Mathematical Model of Heat Transfer.” Eng Phys Thermophy, vol. 97, pp. 451-462, 2024.
Search in Google Scholar Back to article
Strizhenov, E.M., Chugaev, S.S., Shelyakin, I.D. et al. “Numerical modeling of heat and mass transfer in an adsorbed natural gas storage tank with monolithic active carbon during charging and discharging processes.” Heat Mass Transfer, vol. 60, pp. 1931-1944, 2024.
Search in Google Scholar Back to article
Askarova, A.S., Messerle, V.E., Bolegenova, S.A. et al. “Influence of the method of air-fuel mixture supply on the main characteristics of heat and mass transfer processes.” Thermophys. Aeromech, vol. 29, pp. 107-124, 2022.
Search in Google Scholar Back to article
Salikhov, V.A., Fedoseev, S.V. “Comprehensive Use of Coal and Coal Waste: Theoretical Aspects.” Coke Chem, vol. 66, pp. 247-252, 2023.
Search in Google Scholar Back to article
Dyadyura, K., Prokopovich, I., Khamitov, V., Sikach, T., Vershkov, O. “Application of the Dynamic Programming Method in Process Measurement Problems When Assessing Interoperability.” Lecture Notes in Mechanical Engineering, pp. 699-711, 2025.
Search in Google Scholar Back to article
I. Pandová, M. Rimár, A. Panda, et al. “A study of using natural sorbent to reduce iron cations from aqueous solutions.” Int J Environ Res and Pub Health, vol. 17, 2020. https://doi.org/10.3390/ijerph17103686.
Search in Google Scholar Back to article
M. Harničárová, J. Valíček, M. Kušnerová, et al. “Study of the influence of the structural grain size on the mechanical properties of technical materials.” Materialwissenschaft und Werkstofftechnik, vol. 5, 2019. https://doi.org/10.1002/mawe.201800177.
Search in Google Scholar Back to article
L. Sukhodub, A. Panda, L. Sukhodub, et al. “Hydroxyapatite and zinc oxide based two-layer coating, deposited on Ti6Al4V substrate.” MM Science Journal, pp. 3494-3499, 2019. DOI: 10.17973/MMSJ.2019_12_2019030.
Search in Google Scholar Back to article
A. Panda, M. Prislupčák and I. Pandová. “Progressive technology diagnostics and factors affecting machinability.” Applied Mechanics and Materials, vol. 616, pp. 183-190, 2014. DOI: 10.4028/www.scientific.net/AMM.616.183.
Search in Google Scholar Back to article
V. Nahornyi, A. Panda, J. Valíček, et al. “Method of Using the Correlation between the Surface Roughness of Metallic Materials and the Sound Generated during the Controlled Machining Process.” Materials, vol. 15, 823, 2022. https://doi.org/10.3390/ma15030823.
Search in Google Scholar Back to article
A. Panda, V. Nahornyi, J. Valíček, et al. “A novel method for online monitoring of surface quality and predicting tool wear conditions in machining of materials.” Int J Adv Manuf Technol, vol. 123, pp. 3599-3612. https://doi.org/10.1007/s00170-022-10391-0.
Search in Google Scholar Back to article

Modelling the Heat and Mass Transfer in Devices with Dense-Layer Dispersed Systems

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