Электронная библиотека (репозиторий) Томского государственного университета

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Source: Thermal science and engineering progress. 2023. Vol. 37. P. 101547 (1-20)
Type: статьи в журналах
Date: 2023
Description: Thermal energy storages based on the phase change materials are considered as bright technologies because they have more advantages than other energy storage methods. In addition to the thermal parame ... More
Source: Applied thermal engineering. 2023. Vol. 223. P. 119984 (1-14)
Type: статьи в журналах
Date: 2023
Description: Latent heat storage is among the most effective thermal energy storage techniques. The heat can be stored or released in a phase change substance undergoing melting or solidification. The present rese ... More
Source: International communications in heat and mass transfer. 2022. Vol. 138. P. 106349 (1-14)
Type: статьи в журналах
Date: 2022
Source: Case studies in thermal engineering. 2022. Vol. 33. P. 101954 (1-11)
Type: статьи в журналах
Date: 2022
Description: Phase change materials can be considered as innovative heat transfer media that allow to accumulate energy for a charge period and to produce energy for a discharge period. Such materials are widely u ... More
Source: Journal of energy storage. 2022. Vol. 45. P. 103522 (1-11)
Type: статьи в журналах
Date: 2022
Description: Heat transfer enhancement in different engineering systems is a major challenge nowadays. Phase change ma-terials can be used for this purpose due to moderate phase change temperature, great thermal c ... More
Source: International communications in heat and mass transfer. 2020. Vol. 110. P. 104409 (1-10)
Type: статьи в журналах
Date: 2020
Description: This work studies the thermogravitational transmission and thermal radiation of micropolar nanoliquid within a
Source: Advanced powder technology. 2020. Vol. 31, № 6. P. 2493-2504
Type: статьи в журналах
Date: 2020
Description: This study is a computational investigation of transient thermogravitational energy transport in H2O/Al2O3 nanoliquid and water-based copper/aluminum oxide hybrid nanofluid (water/Al2O3-Cu) inside a h ... More
Source: Physica A: statistical mechanics and its applications. 2019. Vol. 526. P. 120831 (1-20)
Type: статьи в журналах
Date: 2019
Description: The present investigation is set to evaluate the nanofluid thermogravitational convection within a Γshaped enclosure that consists of a local heater by the lattice Boltzmann method (LBM). In this stud ... More
Source: Energies. 2019. Vol. 12, № 14. P. 2807 (1-17)
Type: статьи в журналах
Date: 2019
Description: In the present investigation, the free convection energFree convection of hybrid nanofluids in a C-shaped chamber under variable heat flux and magnetic field: simulation, sensitivity analysis, and art ... More
Source: Journal of molecular liquids. 2019. Vol. 277. P. 959-970
Type: статьи в журналах
Date: 2019
Description: Porous media and nanofluids can be used for heat transfer enhancement in different industrial sectors. Very often technical systems consist of several porous layers. At the same time, hybrid nanofluid ... More
Source: Journal of molecular liquids. 2018. Vol. 250. P. 353-368
Type: статьи в журналах
Date: 2018
Description: This work aims to study the conjugate natural convection of micropolar nanofluid within a porous enclosure considering local thermal non-equilibrium model. The Galerkin finite element method is employ ... More
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