Convection heat transfer in enclosures with inner bodies: A review on single and two-phase nanofluid models
This review peruses a comprehensive implementation of inner bodies involved in cavities
filled with regular and nanofluids for both natural and mixed convection modes. The topic of …
filled with regular and nanofluids for both natural and mixed convection modes. The topic of …
A review of magnetic field influence on natural convection heat transfer performance of nanofluids in square cavities
The emergence of nanofluids as high-performance thermal transport media has drawn great
research attention in the field of heat transfer. Owning to the huge importance of natural …
research attention in the field of heat transfer. Owning to the huge importance of natural …
Numerical experiment to examine activation energy and bi-convection Carreau nanofluid flow on an upper paraboloid porous surface: Application in solar energy
A Shahid, MM Bhatti, R Ellahi, KS Mekheimer - … Energy Technologies and …, 2022 - Elsevier
The current article examines the physical features of magneto-hydrodynamics (MHD)
Carreau nanofluid bi-convection flow past an upper paraboloid porous surface. The …
Carreau nanofluid bi-convection flow past an upper paraboloid porous surface. The …
Numerical inspection of two-dimensional MHD mixed bioconvective flows of radiating Maxwell nanofluids nearby a convectively heated vertical surface
A Wakif - Waves in random and complex media, 2023 - Taylor & Francis
The non-homogeneous aspect and dynamical feature of a radiating mixture of an upper-
convected Maxwell nanofluid and gyrotactic motile microorganisms are revealed …
convected Maxwell nanofluid and gyrotactic motile microorganisms are revealed …
Magnetohydrodynamics natural convection of a triangular cavity involving Ag-MgO/water hybrid nanofluid and provided with rotating circular barrier and a quarter …
The current paper studied the behavior of a triangular cavity occupied with Ag-MgO/water
nanofluid under MHD natural convection and provided with a rotating circular barrier, while …
nanofluid under MHD natural convection and provided with a rotating circular barrier, while …
Nanofluid flow through microchannel with a triangular corrugated wall: heat transfer enhancement against entropy generation intensification
In the present study, the effects of applying magnetic field on heat transfer and entropy
generation of a nanofluid through microchannel with a triangular corrugated wall were …
generation of a nanofluid through microchannel with a triangular corrugated wall were …
Numerical simulation of mixed convection flow and heat transfer in the lid-driven triangular cavity with different obstacle configurations
There are several industrial applications, particularly lid-driven walls, for mixed convection
heat transfer characteristics across various cavities. In order to increase the effectiveness of …
heat transfer characteristics across various cavities. In order to increase the effectiveness of …
Impact of fins and inclined magnetic field in double lid-driven cavity with Cu–water nanofluid
This study deals the influence of fins and inclined magnetic field with nanofluid in single lid-
driven and double lid-driven cavities. The effect of fins length and distance between them is …
driven and double lid-driven cavities. The effect of fins length and distance between them is …
Heat transfer in cavities: configurative systematic review
This study is a systematic review of research on heat transfer analysis in cavities and aims to
provide a comprehensive understanding of flow and heat transfer performance in various …
provide a comprehensive understanding of flow and heat transfer performance in various …
Thermal performance due to magnetohydrodynamics mixed convection flow in a triangular cavity with circular obstacle
The present study is about the numerical analysis of convection heat transfer inside lid-
driven triangular cavity. Based upon magnetohydrodynamics (MHD) theory, constant …
driven triangular cavity. Based upon magnetohydrodynamics (MHD) theory, constant …