STEADY INTERACTION OF A TURBULENT PLANE JET WITH A RECTANGULAR HEATED CAVITY
Abstract
Turbulent heat transfer between a confined jet flowing in a hot rectangular cavity is studied numerically by finite volume method using the k-ω SST one point closure turbulence model. The location of the jet inside the cavity is chosen so that the flow is in the non-oscillation regime. The flow structure is described for different jet-to-bottom-wall distances. A parametrical study was conducted to identify the influence of the jet exit location and the Reynolds number on the heat transfer coefficient. The parameters of this study are: the jet exit Reynolds number (Re, 1560< Re <33333), the temperature difference between the cavity heated wall and the jet exit (ΔT=60°C) and the jet location inside the cavity (Lf, 2≤ Lf≤ 10 and Lh 2.5
Dates
- Submission Date2013-11-06
- Revision Date2014-04-29
- Acceptance Date2014-05-03
- Online Date2014-06-15
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