References
- Yuzevych V., Holubets T. (2025) Modelling of stress into humidified porous layer under influence of microwave irradiation Part I The problem formulation. Mathematical Modeling in Civil and Environmental Engineering Vol.20(2), 13-20. DOI: 10.2478/mmce-2025-0007.
- Datta A.K. (2007) Porous media approaches to studying simultaneous heat and mass transfer in food processes Part I – Problem formulations. Journ. of food enginireeng, 80, .80-95. DOI: 10.1016/j.jfoodeng.2006.05.013.
- Datta A.K. (2007) Porous media approaches to studying simultaneous heat and mass transfer in food processes Part II – Property data and representative results. Journ. of food enginireeng, 80, .96-110. DOI: 10.1016/j.jfoodeng.2006.05.012.
- Hachkevych O.R., Terlets’kyi R.F. & Holubets’ T.V. (2010) Calculation of effective electrophysical characteristics of moistened porous materials. J. Math Sci. 168, 699–717. DOI: 10.1007/s10958-010-0020-0.
- Burak J.Y., Kushnir R.M. (2006) Modeling and optimization in thrmomechanics of electrocunductive heterogeneous solids. V.1: Thermomechanics of multicomponent solids of low electrical conductivity /Editor-in-Chif Burak Y.J., Hachkevych O.R., Terletskii R.F./, Lviv: SPOLOM,300p.
- Burak J.Y., Kushnir R.M.(2007) Modeling and optimization in thermomechanics of electrocunductive heterogeneous solids. V.2: Mechanothermodiffusion in semitransparent solids /Editor-in-Chif Hachkevych O.R., Terletskii R.F., Kournyts’kyi T.L Lviv: SPOLOM,184p.
- Chen P., Pei D.C.T. (1989) A mathematical model for drying processes. Int. J. Heat and Mass Transfer. 32(2), 297-310. DOI: 10.1016/0017-9310(89)90177-4.
- Berger D., Pei D.C.T. (1973) Drying of hygroscopic capillary porous solids – a theoretical approach. Int. J. Heat and Mass Transfer, 293-302. DOI: 10.1016/0017-9310(73)90058-6.
- Jansen W., Wekken B. (1991) Modelling of dielectric assisted drying. J. Microwave Power Electromagnetic Energy, 26, 227-236. DOI: 10.1080/08327823.1991.11688161.
- Holubets T.V. (2016) Investigation of the structural properties of porous material acсording to the sorption isotherms and drainage curves. Mathematical modeling and computing, 3(1), 23-32. DOI: 10.23939/mmc2016.01.023.
- Burger H.C. (1919) Das leitvermogen verdunnter mischkristall-freier legierungen. Phyz. Z., 20,73-75.
- Millington R.J., Quirk J.P. (1961) Transport in porous media. Trans. Int. Congr. Soil Sci., 7(1), 97-106.
- Ландау Л.Д., Лифшиц Е.М. (1982) Электродинамика сплошных сред. Москва: “Наука”, 632с.
- Bottcher С.J.F., Bordewijk P. (1978) Theory of Electric Polarization /vol. II: Dielecric in time-dependend field/, Amsterdam: Elsevier Scientific, 561p.
- Каценеленбаум Б.З. (1966) Высокочастоная електродинамика. Основы математического апарата. М: “Наука”, 240с.
- T. Holubets, R. Terletskiy, V. Yuzevych. (2023) The Analytical Expressions to Describe Wave Propagation and Heat Release During Microwave Treatment of Porous Inhomogeneous Plate Based on the W.K.B. Solution Model. Advances in Materials Science, 23 (1), 69-81. DOI: 10.2478/adms-2023-0005.