Шеремет Михаил Александрович

Публикации

Общее число записей - 562
141 Hussain M., Farooq U., Sheremet M. Nonsimilar convective thermal transport analysis of EMHD stagnation Casson nanofluid flow subjected to particle shape factor and thermal radiations // International Communications in Heat and Mass Transfer. 2022. Vol. 137. Art. num. 106230. DOI: 10.1016/j.icheatmasstransfer.2022.106230
142 Phase change heat transfer and energy storage in a wavy-tube thermal storage unit filled with a nano-enhanced phase change material and metal foams / M. Ghalambaz, M.A. Sheremet, Melaibari A.A., Chamkha A. J. [et al] // Journal of Energy Storage. 2022. Vol. 54. Art. num. 105277. DOI: 10.1016/j.est.2022.105277
143 Iachachene F., Haddad Z., Abu-Nada E., Sheremet M. A. Natural convection melting of phase change material in corrugated porous cavities // Sustainable Energy Technologies and Assessments. 2022. Vol. 53. Art. num. 102734. DOI: 10.1016/j.seta.2022.102734
144 Patil P.M., Benawadi S., Sheremet M. A. The unsteady nonlinear convective flow of a nanofluid due to impulsive motion: Triple diffusion and magnetic effects // Thermal Science and Engineering Progress. 2022. Vol. 35. Art. num. 101456. DOI: 10.1016/j.tsep.2022.101456
145 Charging process of a partially heated trapezoidal thermal energy storage filled by nano-enhanced PCM using controlable uniform magnetic field / M.A. Sheremet, M. Izadi, A. Hajjar, H.N. Alshehri [et al] // International Communications in Heat and Mass Transfer. 2022. Vol. 138. Art. num. 106349. DOI: 10.1016/j.icheatmasstransfer.2022.106349
146 Hussain M., Sheremet M. Convective-radiative magnetized dissipative nanofluid (CNTs-water) transport in porous media, using Darcy–Brinkman–Forchheimer model // International Communications in Heat and Mass Transfer. 2022. Vol. 139. Art. num. 106420. DOI: 10.1016/j.icheatmasstransfer.2022.106420
147 Михайленко С.А., Шеремет М.А. Влияние оси вращения на конвективно-радиационный теплообмен во вращающейся кубической полости при наличии источника энергии // XVI Минский международный форум по тепло- и массообмену: тезисы докладов и сообщений. Дополнительный выпуск. Минск, 2022. С. 343‒346. URL: https://www.itmo.by/conferences/abstracts/mif-16/mif16-additional-issue.pdf (дата обращения: 15.10.2022).
148 Mikhailenko S.A., Sheremet M.A. Convection in a differentially heated cubic cavity rolling about horizontal axis // International Journal of Thermal Sciences. 2022. Vol. 179. Art. num. 107639. DOI: 10.1016/j.ijthermalsci.2022.107639
149 Астанина М.С., Шеремет М.А. Математическое моделирование термогравитационной конвекции в кубе с пористой вставкой и нагревателем в рамках локально-неравновесной модели теплового взаимодействия // XVI Минский международный форум по тепло- и массообмену: тезисы докладов и сообщений. Дополнительный выпуск. Минск, 2022. С. 3‒6. URL: https://www.itmo.by/conferences/abstracts/mif-16/mif16-additional-issue.pdf (дата обращения: 13.10.2022).
150 Астанина М.С., Шеремет М.А. Численное моделирование естественной конвекции в частично пористой кубической полости с тепловыделяющим источником энергии // Актуальные проблемы прикладной математики, информатики и механики: сборник трудов Международной научной конференции, Воронеж, 13–15 декабря 2021 г. Воронеж: Научно-исследовательские публикации, 2022. С. 313‒318.
151 Gowtham S., Sivaraj C., Sheremet M.A. Thermogravitational convection of water-based nanofluids with entropy generation in a wavy cabinet having a localized non-uniform heat source // European Physical Journal Plus. 2022. Vol. 137, № 4. Art. num. 510. URL: https://link.springer.com/article/10.1140/epjp/s13360-022-02675-x.
152 Mikhailenko S.A., Sheremet M.A. Thermal Convection in a Partially Porous Rotating Chamber Using Local Thermal Non-Equilibrium Models // Transport in Porous Media. 2022. Vol. 143, № 3. P. 619‒637. DOI: 10.1007/s11242-022-01801-8
153 Patil P.M., Shankar H.F., Sheremet M.A. Inuence of Liquid Hydrogen Diffusion on Nonlinear Mixed Convective Circulation around a Yawed Cylinder // Symmetry. 2022. Vol. 14, № 2. Art. num. 337. URL: https://www.mdpi.com/2073-8994/14/2/337.
154 Effect of Non-Identical Magnetic Fields on Thermomagnetic Convective Flow of a Nanoliquid Using Buongiornos Model / M.A. Sheremet, N.B. Khedher, A.S. Alghawli, A. Mohamed [et al] // Mathematics. 2022. Vol. 10, № 8. Art. num. 1222. URL: https://www.mdpi.com/2227-7390/10/8/1222.
155 Alsabery A.I., Sheremet M.A., Chamkha A.J., Hashim I. Forced convection of turbulent flowinto the wavy parallel channel // Journal of Thermal Analysis and Calorimetry. 2022. Vol. 147, № 22. P. 11183‒11194. DOI: 10.1007/s10973-022-11337-0
156 Gibanov N.S., Rashidi M.M., Sheremet M.A. Comparative analysis of the lattice Boltzmann method and the finite difference technique of thermal convection in closed domains with heaters // International Journal of Numerical Methods for Heat & Fluid Flow. 2022. Vol. 32, № 11. P. 3579‒3597. DOI: 10.1108/HFF-01-2022-0039
157 Umavathi J.C., Sheremet M.A. Chemical reaction influence on nanofluid flow in a porous layer: Stability analysis // International Communications in Heat and Mass Transfer. 2022. Vol. 138. Art. num. 106353. DOI: 10.1016/j.icheatmasstransfer.2022.106353
158 Study of tree-shaped optimized fins in a heat sink filled by solid-solid nanocomposite phase change material / M. Ghalambaz, M.A. Sheremet, Khedher N. B., A.S. Alghawli [et al] // International Communications in Heat and Mass Transfer. 2022. Vol. 136. Art. num. 106195. DOI: 10.1016/j.icheatmasstransfer.2022.106195
159 Bondareva N.S., Sheremet M.A. Influence of PCM heat sink shape on cooling of heat-generating elements in electronics // Applied Thermal Engineering. 2022. Vol. 213. Art. num. 118695. DOI: 10.1016/j.applthermaleng.2022.118695
160 Sivaraj C., Gowtham S., Elango M., Sheremet M.A. Analysis of thermo-magnetic convection and entropy generation of Al2O3-water nanofluid in a partially heated wavy electronic cabinet // International Communications in Heat and Mass Transfer. 2022. Vol. 133. Art. num. 105955. DOI: 10.1016/j.icheatmasstransfer.2022.105955