Experimental study of unstable mixed convection of air in a bottom heated horizontal rectangular duct
References (42)
- et al.
Etude numérique et expérimental de la convection mixte entre deux plans horizontaux
Int. J. Heat Mass Transfer
(1989) - et al.
Etude expérimental de la convection mixte entre deux plans horizontaux à températures différents-II
Int. J. Heat Mass Transfer
(1990) - et al.
Laminar, mixed convection heat transfer for flow between horizontal parallel plates with asymmetric heating
Int. J. Heat Mass Transfer
(1985) - et al.
Experimental study of mixed convection heat transfer for transitional and turbulent flow between horizontal, parallel plates
Int. J. Heat Mass Transfer
(1985) - et al.
Regions of Heat transfer enhancement for laminar mixed convection in a parallel plate channel
Int. J. Heat Mass Transfer
(1990) - et al.
Buoyancy effects on laminar heat transfer in the thermal entrance region of horizontal rectangular channels with uniform wall heat flux for large Prandtl number fluid
Int. J. Heat Mass Transfer
(1972) - et al.
Buoyancy induced flow transition in mixed convective flow of air through a bottom heated horizontal rectangular duct
Int. J. Heat Mass Transfer
(1994) - et al.
Complex flow phenomena in MOCVD reactors
J. Crystal Growth
(1986) - et al.
Mixed convection in a horizontal rectangular channel-experimental and numerical velocity distributions
Int. J. Heat Mass Transfer
(1992) Convective heat transfer in electronic equipment cooling
J. Heat Transfer
(1988)
Compact Heat Exchangers
A study of traveling wave instabilities in a horizontal channel flow with applications to chemical vapor deposition
Int. J. Heat Mass Transfer
Forced convective heat transfer between horizontal flat plates
Int. J. Heat Mass Transfer
Experiments on the onset of longitudinal vortices in laminar forced convection between horizontal plates
J. Heat Transfer
Heat transfer augmentation in laminar fully developed channel flow by means of heating from below
J. Heat Transfer
Effect of thermal instability on thermally developing laminar channel flow
J. Heat Transfer
An experimental study of convective instability in the thermal entrance region of a horizontal parallel-plate channel heated from below
Can. J. Chem. Engng
Convective heat transfer augmentation in thermal entrance regions by means of thermal instability
J. Heat Transfer
Mixed convection between horizontal plates-I. Entrance effects
Int. J. Heat Mass Transfer
Mixed convection between horizontal plates-II. Fully developed flow
Int. J. Heat Transfer
Onset of thermally driven secondary flow in horizontal rectangular ducts
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2022, International Journal of Heat and Mass TransferPoiseuille-Rayleigh-Bénard mixed convection flow in a channel: Heat transfer and fluid flow patterns
2021, International Journal of Heat and Mass TransferCitation Excerpt :In the last few decades, mixed convection in horizontal channels has been extensively researched. The enduring popularity of the problem is relevant to many engineering applications such as nuclear and chemical reactors, heat exchangers, solar heaters, coatings on substrates, and cooling of electronic equipments, where the heating usually consists of multiple distinct sources of heat mounted on the channel's bottom and/or top plates [1–8]. The Poiseuille-Rayleigh-Bénard (PRB) flows are mixed convection flows between parallel plates or in horizontal rectangular ducts, uniformly heated from below and cooled from above.
3D Numerical study of the effect of aspect ratio on mixed convection air flow in upward solar air heater
2020, International Journal of Heat and Fluid FlowCitation Excerpt :Mixed convection is prevailing in wide range of engineering applications (Wessels et al., 2019). Detailed understanding of these buoyancy induced flow is important in fundamental fluid mechanics and heat transfer studies such as cooling of microelectronic components, heat transfer in compact heat exchangers, growth of single crystal through chemical vapor deposition (Lin and Lin 1996b), chemical and nuclear power, and in renewable energies as solar collectors (Abid et al., 2006). Mixed convection studies are still relevant, many recent scientific papers are related to this heat transfer mode over the world. (