Influence of finned charges on melting process performance in a thermal energy storage; Thermal Science and Engineering Progress; Vol. 37

Influence of finned charges on melting process performance in a thermal energy storage; Thermal Science and Engineering Progress; Vol. 37

Dettagli Bibliografici
Parent link:	Thermal Science and Engineering Progress Vol. 37.— 2023.— [101547, 20 p.]
Ente Autore:	Национальный исследовательский Томский политехнический университет Инженерная школа энергетики Научно-образовательный центр И. Н. Бутакова (НОЦ И. Н. Бутакова)
Altri autori:	Izadi M. Mohsen, Fagehi H. Hassan, Imanzadeh A. Amir, Altnji S. Sam, Hamida M. B. B. Mohamed Bechir Ben, Sheremet M. A. Mikhail Aleksandrovich
Riassunto:	Title screen 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 parameters of phase change materials, the performance of the thermal energy storage system using latent heat depends on the heat exchanger properties. Here, several different parameters related to the use of fins in the thermal energy storage devices have been studied. Using enthalpy-porosity method, the process of phase-change material melting into a square cavity is evaluated. Cylindrical thermal chargers with a circular cross-section that transfer heat energy to the phase change material are installed inside the chamber. Longitudinal fins are placed on the heat charger surface to assist the heat charging process. By increasing the fins number to four compared with two fins, the melting process shows a significant increase for the position where the heat charger is located in the center and at the bottom of the cavity. Also for these conditions, higher temperature gradients and a thinner boundary layer are observed at the melting point. Also, the heat transfer rate increases and the melting process is accelerated. Режим доступа: по договору с организацией-держателем ресурса
Lingua:	inglese
Pubblicazione:	2023
Soggetti:	электронный ресурс труды учёных ТПУ thermal storage tank fins phase change material natural convection резервуары хранение тепло естественная конвекция
Accesso online:	https://doi.org/10.1016/j.tsep.2022.101547
Natura:	Elettronico Capitolo di libro
KOHA link:	https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=668406

Documenti analoghi

The relationship between thermal management methods and hydrogen storage performance of the metal hydride tank; Journal of Materials Science & Technology; Vol. 203
Pubblicazione: (2024)

Analysis of the effect of geometric ratio of liquefied natural gas storage tank sides on thermal conditions of the tank; Chemical and Petroleum Engineering; Vol. 56, No. 11-12
di: Maksimov V. I. Vyacheslav Ivanovich
Pubblicazione: (2021)

Analysis of the Combined Ice Storage (PCM) Heating System Installation with Special Kind of Solar Absorber in an Older House; Energies; Vol. 13, iss. 15
Pubblicazione: (2020)

Impact of porous fins on thermal convection in a differentially-heated cubical chamber; Journal of Thermal Analysis and Calorimetry; Vol. 150, iss. 8
di: Le Suan Khoang Kkhoa
Pubblicazione: (2025)

Recent Advancements in Materials and Systems for Thermal Energy Storage An Introduction to Experimental Characterization Methods /
Pubblicazione: (2019)

Effect of thermal radiation on natural convection in a square porous cavity filled with a fluid of temperature-dependent viscosity; Thermal Science; Vol. OnLine-First, iss. 00
di: Astanina M. S. Marina
Pubblicazione: (2016)

Electrospinning for Advanced Energy Storage Applications
Pubblicazione: (2021)

Energy Storage Fundamentals, Materials and Applications /
di: Huggins, Robert
Pubblicazione: (2016)

Vanadium-Based Nanomaterials for Electrochemical Energy Storage
di: Mai, Liqiang, et al.
Pubblicazione: (2023)

Energy Storage Systems Optimization and Applications /
Pubblicazione: (2023)

Хранение нефтепродуктов в резервуарах вертикальных стальных; Инновационные технологии в машиностроении
di: Мальчик А. Г. Александра Геннадьевна
Pubblicazione: (2021)

Hybrid lattice Boltzmann––Finite difference formulation for combined heat transfer problems by 3D natural convection and surface thermal radiation; International Journal of Mechanical Sciences; Vol. 173
di: Nee A. E. Aleksandr Eduardovich
Pubblicazione: (2020)

Long-Term Health State Estimation of Energy Storage Lithium-Ion Battery Packs
di: Huang, Qi, et al.
Pubblicazione: (2023)

Graphene-based Composites for Electrochemical Energy Storage
di: Liu, Jilei
Pubblicazione: (2017)

Novel Highly Flexible Modular Power Electronics for Energy Storage and Conversion Systems
di: Tashakor, Nima
Pubblicazione: (2023)

Simulation study on the performance of LaNi5-Based solid state hydrogen storage tanks for fuel cells; International Journal of Hydrogen Energy; Vol. 184
Pubblicazione: (2025)

Recent Research Trends in Energy Storage Devices Select Papers from IMSED 2018 /
Pubblicazione: (2021)

Hybrid meso-macroscopic simulation of three-dimensional natural convection combined with conjugate heat transfer; Thermal Science and Engineering Progress; Vol. 19
di: Nee A. E. Aleksandr Eduardovich
Pubblicazione: (2020)

Assessment of high order regularized hybrid lattice Boltzmann scheme for turbulent thermal convection; International Communications in Heat and Mass Transfer; Vol. 143
di: Nee A. E. Aleksandr Eduardovich
Pubblicazione: (2023)

Free convection in wavy porous enclosures with non-uniform temperature boundary conditions filled with a nanofluid: Buongiorno’s mathematical model; Thermal Science; Vol. 21, iss. 3
di: Sheremet M. A. Mikhail Aleksandrovich
Pubblicazione: (2017)

Тепловое поле в скважине при индукционном нагреве обсадной колонны в условиях низкой скорости потока; Известия Томского политехнического университета [Известия ТПУ]. Инжиниринг георесурсов; Т. 334, № 2
Pubblicazione: (2023)

Unsteady natural convection in a partially porous cavity having a heat-generating source using local thermal non-equilibrium model; International Journal of Numerical Methods for Heat and Fluid Flow; Vol. 29, iss. 6
di: Astanina M. S.
Pubblicazione: (2019)

Superconducting Magnetic Energy Storage Systems (SMES) for Distributed Supply Networks
di: Molina-Ibáñez, Enrique-Luis, et al.
Pubblicazione: (2023)

Thermal Energy Storage for Medium and High Temperatures Concepts and Applications /
di: Steinmann, Wolf-Dieter
Pubblicazione: (2022)

The behavior of heat transfer and entropy in a thin layer of liquid under laser heating; International Journal of Thermal Sciences; Vol. 185
Pubblicazione: (2023)

Hybrid lattice Boltzmann 3D simulation of combined heat transfer by conduction, convection and radiation; Case Studies in Thermal Engineering; Vol. 32
di: Nee A. E. Aleksandr Eduardovich
Pubblicazione: (2022)

Hybrid pseudo-direct numerical simulation of high Rayleigh number flows up to 10{11}; Journal of Thermal Analysis and Calorimetry; Vol. 147
di: Nee A. E. Aleksandr Eduardovich
Pubblicazione: (2021)

Natural convection heat transfer combined with melting process in a cubical cavity under the effects of uniform inclined magnetic field and local heat source; International Journal of Heat and Mass Transfer; Vol. 108
di: Bondareva N. S. Nadezhda Sergeevna
Pubblicazione: (2017)

Modelling of thermal diffusion processes in electron-plasma treatment; Energy Fluxes and Radiation Effects (EFRE-2016)
di: My Kim An Tran
Pubblicazione: (2016)

Energy Materials and Devices Proceedings of E-MAD 2022 /
Pubblicazione: (2024)

The effect of the interface length on the evaporation rate of a horizontal liquid layer under a gas flow; Thermophysics and Aeromechanics; Vol. 27, iss. 1
Pubblicazione: (2020)

Mathematical modelling of conjugate heat transfer and fluid flow inside a domain with a radiant heating system; International Journal of Thermal Sciences; Vol. 131
di: Kuznetsov G. V. Geny Vladimirovich
Pubblicazione: (2018)

Next Generation Batteries Realization of High Energy Density Rechargeable Batteries /
Pubblicazione: (2021)

Prussian Blue Based Batteries
di: Piernas Muñoz, María José, et al.
Pubblicazione: (2018)

Studies on Anionic Redox in Li-Rich Cathode Materials of Li-Ion Batteries
di: Li, Biao
Pubblicazione: (2019)

Modelling of the conjugate natural convection in a closed system with the radiant heating source radiant energy distribution by lambert's cosine law; Thermal Science; Vol. 22, iss. 1, pt. B
di: Kuznetsov G. V. Geny Vladimirovich
Pubblicazione: (2018)

Экспериментальное исследование скорости испарения капли дистиллированной воды в условиях свободного её падения на нагретую полированную и структурированную алюминиевую поверхность; Неравновесные процессы в сплошных средах; Т. 2
di: Шарифулин Т. М. Тахир Маликович
Pubblicazione: (2017)

Hydrogen for Future Thermal Engines
Pubblicazione: (2023)

Lithium Metal Anodes and Rechargeable Lithium Metal Batteries
di: Zhang, Ji-Guang, et al.
Pubblicazione: (2017)

Free convection in a porous wavy cavity filled with a nanofluid using Buongiorno's mathematical model with thermal dispersion effect; Applied Mathematics and Computation; Vol. 299
di: Sheremet M. A. Mikhail Aleksandrovich
Pubblicazione: (2017)