[1. Formalev, V.F., Kolesnik, S.A., & Kuznetsova, E.L. (2018). On the wave heat transfer at times comparable with the relaxation time upon intensive convective-conductive heating. High Temperature, 56(3), 393–397.10.1134/S0018151X18030069]Search in Google Scholar
[2. Kolesnik, S.A., Formalev, V.F., & Kuznetsova, E.L. (2015). On inverse boundary thermal conductivity problem of recovery of heat fluxes to the boundaries of anisotropic bodies. High Temperature, 53(1), 68–72.10.1134/S0018151X15010113]Search in Google Scholar
[3. Barenblatt, G.I., Entov, V.M., & Ryzhik, V.М. (1984). Movement of liquids and gases in natural formations. Moscow: Nedra.]Search in Google Scholar
[4. Nikolaevsky, V.N. (1984). Mechanics of porous and fissured media. Moscow: Nedra.]Search in Google Scholar
[5. Bondarev, E.A., & Nikolaevsky, V.N. (1962). Convective diffusion in porous media taking into account the adsorption phenomenon. Applied Mechanics and Technical Physics, 5, 128–134.]Search in Google Scholar
[6. Tlebayev, M.B., Tazhiyeva, R.N., Doumcharieva, Zh.E., Aitbayeva, Z.K., & Baijarikova, M.A. (2017). Mathematical research of the accelerated three-stage process of substrate fermentation in bioreactors. Journal of Pharmaceutical Sciences and Research, 9(4), 392–400.]Search in Google Scholar
[7. Galimbekov, A.D. (2004). Influence of high-frequency electromagnetic field on chemical reactions in multicomponent media. Journal of Physical Chemistry, 78(9), 1693–1697.]Search in Google Scholar
[8. Galimbekov, A.D. (2007). Some aspects of the interaction of electromagnetic fields with polarizing media. Thesis for the degree of Doctor of Physics and Mathematics. Ufa: Bashkir State University.]Search in Google Scholar
[9. Kovaleva, L.A., & Galimbekov, A.D. (2004). Influence of a high-frequency electromagnetic field on physicochemical processes in multicomponent media. Bulletin of the Orenburg State University, 1(26), 141–146.]Search in Google Scholar
[10. Coello-Fiallos, D.C., Espin-Lagos, S.M., Vacacela Gomez, C., Tavolaro, A., & Caputi, L.S. (2018). Comparison of pure membranes of 13X and 5A zeolite for removal of acridine orange dye from aqueous solutions. Periódico Tchê Química, 15(29), 251–257.10.52571/PTQ.v15.n29.2018.251_Periodico29_pgs_251_256.pdf]Search in Google Scholar
[11. Cavallari, R.V., De Lima, N.B., Silva, J.C.M., Bergamashi, V.S., & Ferreira, J.C. (2018). Preparation of catalyst support from bio carbon. Periódico Tchê Química, 15(30), 115–122.10.52571/PTQ.v15.n30.2018.118_Periodico30_pgs_115_126.pdf]Search in Google Scholar
[12. Vian, A., Davies, E., Gendraud, M., & Bonnet, P. (2016). Plant responses to high frequency electromagnetic fields. Biomed Res Int., 2016, 1830262.10.1155/2016/1830262476973326981524]Search in Google Scholar
[13. D’Agostino, S., Monica, C.D., Palizzi, E., Di Pietrantonio, F., Benetti, M., Cannatà, D., … Ramundo-Orlando, A. (2018). Extremely high frequency electromagnetic fields facilitate electrical signal propagation by increasing transmembrane potassium efflux in an artificial axon model. Scientific Reports, 8, 9299.10.1038/s41598-018-27630-8600643029915373]Search in Google Scholar
[14. Kıvrak, E.G., Yurt, K.K., Kaplan, A.A., Alkan, I., & Altun, G. (2017). Effects of electromagnetic fields exposure on the antioxidant defense system. Journal of Microscopy and Ultrastructure, 5(4), 167–176.10.1016/j.jmau.2017.07.003602578630023251]Search in Google Scholar