Fundamental approaches in mathematical modeling of drying processes of capillary-porous and dispersed materials

Abstract

A review of main approaches to the mathematical modeling of heat and mass transfer in the process of drying of capillary-porous and disperse materials is presented. The peculiarities of the models construction from the point of view of the mechanics of a continuous medium, the theory of mixtures, statistical approaches and with taking into account the fractal structure are considered, which allows one to expand the many implementations of models, to take into account the anisotropy of thermo-mechanical characteristics, elastic and visco-elastic properties, etc.

1. Nigmatulinб R. I. (1978). Osnovy mehaniki geterogennyh sred. M: Nauka.
2. Gamayunov, S. N., Misnikov, O. S. (1988). Usadochnye yavleniya pri sushke prirodnyh organomineralnyh dispersij. IFZh, 71(2), 233-236.
3. Mushtaev, V. I. (1971). Osnovnye teoreticheskie polozheniya konvektivnoj sushki i utochnennyj metod rascheta sushilnyh apparatov. Pod red. Planovskogo. M: MIHM.
4. Mushtaev, V. I, Ulyanov, V. M. (1988). Sushka dispersnyh materialov. M: Himiya.
5. Likov, A. V. (1968). Teoriya sushki. M: Energiya, 1968.
6. Sazhin, B. S. (1984). Osnovy tehniki sushki. M: Himiya.
7. Lajtfud, U. (1977). Yavleniya perenosa v zhivyh sistemah. M: Mir.
8. Tutova, E. G., Grinchik, N. N. (). Mehanizmmassoperenosa pri obezvodzhivanii slozhnyh biologicheskih sistem. Teplomasoobmen, 6(7), 25-28.
9. Grinchik, N. N. (1991). Processy perenosa v poristyh sredah, elektrolitah i membranah. Minsk: ITMO im.A.V.Lykova AN BSSR.
10. Lucik, P. P., Litevchuk, D. P. (1984). Vliyanie porovoj struktury na pronicaemost kapillyarno- poristyh tel. Teplomassoobmen, 6(7), 74-77.
11. Lykov, A. V. (1970). Metody resheniya nelinejnyh uravnenij nestacionarnoj teploprovodnosti. Izv.AN SSSR, Energetika i transport, 5, 109.
12. Zhuravleva, V. P. (1972). Masso-teploperenos pri termoobrabotke i sushkekapilyarno- poristyhstroitelnyhmaterialov. Minsk.
13. Zhuravleva, V. P. (1971). Issledovanie processa obrazovaniya dispersnyh struktur. Minsk, 5, 35-40.
14. Kuc, P. S., Grinchik, N. N. (). Teplo i massoperenos v kapilyarno-poristyh telah pri intensivnom paroobrazovanii s uchetom dvizheniya fronta ispareniya. Teplomasoobmen, 6(7), 93-96.
15. Lucik, P. P. (1985). Uravneniya teorii sushki deformiruemyh tverdyh tel. Promyshlennaya teplotehnika, 7(6), 20.
16. Lucik, P. P. (1984). Massotermicheskoe deformirovanie kapillyarno-poristyh kolloidnyh tel v processah cushki. Teplomassoobmen, 6, 90.
17. Haivas, B. I. (2010). Pro opys lokalnoho stanu kapiliarno-porystykh ta shchilno upakovanykh zernystykh materialiv v protsesi sushinnia. Chastyna 1. Modeliuvannia ta informatsiini tekhnolohii, 57, 95–104.
18. Haivas, B. I. (2010). Kliuchova systema rivnian dlia doslidzhennia protsesu sushinnia porystykh til. Chastyna 2. Modeliuvannia ta informatsiini tekhnolohii : zb. nauk. pr., 58, 116-125.
19. Haivas, B. (2010). Matematychne modeliuvannia konvektyvnoho sushinnia materialiv z urakhuvanniam mekhanotermodyfuziinykh protsesiv. Fizyko-matematychne modeliuvannia ta informatsiini tekhnolohii, 12, 9-37.
20. Hayvas, B., Torskyy, A., Chapla, Ye. (2012). On an approach to solutson of problems of porous bodies drying. Fizyko-matematychne modeliuvannia ta informatsiini tekhnolohii, 16, 42–51.
21. Haivas, B., Boretska, I. (2011). Vplyv rezhymu sushylnoho ahenta na osushennia porystykh til. Kompiuterni tekhnolohii drukarstva, 26, 231-240.
22. Haivas, B. I. (2016). Sushka zerna v aktyvnykh hidrodynamichnykh rezhymakh z vrakhuvanniam sharuvatosti yii struktury. Fizyko-matematychne modeliuvannia ta informatsiini tekhnolohii, 23, 29–42.
23. Romankov, P. G., Rashkovskaya, N. B. (1968). Sushka vo vzveshennom sostoyanii. L: Himiya.
24. Teplickij, Yu. S. (2002). Diagramma fazovogo sostoyaniya dispersnoj sistemy s voshodyashim potokom gaza. IFZh, 75(1), 117-121.
25. Kalenderyan, V. A., Karnaraki, V. V. (1982). Teploobmen i sushka v dvizhushemsya plotnom sloe. Kiev: visha shkola.
26. Buevich, Yu. A., Korolev, V. N. (1991). Obtekanie tel i vneshnij teploobmen v psevdoozhizhennom sloe. Sverdlovsk: Izd Uralskogo universiteta.
27. Nagornov, S. A. (2002). Upravlenie processami perenosa teploty v neodnorodnyh psevdoozhizhennyh i vibrocirkulyacionnyh sredah. Tambov: GNU VIITKN.
28. Razumov, I. M. (1972). Psevdoozhizhenie i pnevmotransport sypuchih materialov. M: Himiya.
29. Antonishin, N. V., Geller, L. A., Ivanyutenko, I. I. (1982). Teploperedacha v psevdoturbulentnom sloe dispersnogo materiala. IFZh, 43(3), 360-364.
30. Hejfec, L. I., Nejmark, F. M. (1982). Mnogofaznye processy v poristyh sredah. Moskva: Himiya.
31. Akulich, P. V., Militcer, K. U. (1998). Modelirovanie neizotermicheskogo vlagoperenosa i napryazhenij v drevesine pri sushke. IFZh, 71(3), 404-411.
32. Shubin, G. S. (1985). Sushka i teplovaya obrabotka drevesiny. (Avtoref. dis d.t.n.). M.
33. Shymanskyi, V. M. (2015). Matematychne modeliuvannia neizotermichnoho volohoperenesennia ta viazko- pruzhnoho deformuvannia u seredovyshchakh z fraktalnoiu strukturoiu. (Avtoref.dys k.t.n.). Lviv.
34. Sokolovskyi, Ya. I., Shymanskyi, V. M. (2011). Dvovymirna matematychna model volohoperenosu u kapiliarno-porystykh materialakh z fraktalnoiu strukturoiu. Naukovyi visnyk NLTU Ukrainy, 21(2), 341-348.
35. Mozhaev, A. P. (). Haoticheskie gomogennye poristye sredy. 2. Teoriya dispersionnoj turbulentnosti: osnovnye polozheniya.
36. Voronov, V. G., Mihajleckij, Z. N. (1982). Avtomaticheskoe upravlenie processami sushki. Kiev: Tehnika.