Details

Autor(en) / Beteiligte

• Olazo-Gómez, Y.
• Xamán, J.
• Gijón-Rivera, M.
• Noh-Pat, F.
• Simá, E.
• Chávez, Y.

Titel

Mathematical modelling of conjugate laminar and turbulent heat transfer in a cavity: Effect of a vertical glazed wall

Ist Teil von

• International journal of thermal sciences, 2020-06, Vol.152, p.106310, Article 106310

Ort / Verlag

Elsevier Masson SAS

Erscheinungsjahr

2020

Quelle

Elsevier ScienceDirect Journals

Beschreibungen/Notizen

• A numerical analysis of the laminar and turbulent natural convection combined with surface thermal radiation in a square cavity with a glazed wall is presented. The enclosure is composed of one left vertical isothermal wall, two horizontal adiabatic walls, and one right vertical partially semitransparent wall (clear glass sheet). Different values of the aspect ratio of the right vertical glazed wall (A=0.15,0.25,0.5,0.75,1.0) are analyzed, and the incoming solar irradiation (G) over the glass is varied from 0 to 750 W/m2 at intervals of 150 W/m2. Three different case studies were considered based on the position of the clear glass sheet on the right wall: (a) located at bottom side/Case 1 (C1), (b) located at the middle side/Case 2 (C2), and (c) located at the upper side/Case 3 (C3). The numerical solution was carried out using an in-house code based on the finite volume method. The numerical code was validated against experimental data for the turbulent natural convection problem. A comparison between the predicted and measured dimensionless vertical velocity, temperature profiles and local and average Nusselt numbers are presented, obtaining good agreement. Results show that convective heat transfer increases from about 70 to 250 as the aspect ratio increases from 0.15 to 1.0, for all solar radiation intensities, and all cases of turbulent flow. Also, radiative heat transfer decreases as the aspect ratio and solar radiation increase, which implies that it could become lower than convective heat transfer for some aspect ratio values set. When a laminar flow regime is considered, lower average convective and radiative heat transfer rates are obtained regarding the case of turbulent flow. In general, they are between 2.0<Nuconv<7.5 and 2.0<Nurad<13.5 for all cases under analysis. Finally, a set of correlations for the total Nusselt number were obtained for turbulent conjugate heat transfer. •Effect of the aspect ratio of a vertical glazed wall in a cavity is presented.•Based on the position of the glass, 3 cases were considered at the: (C1) bottom, (C2) middle and (C3) upper side.•The turbulent convective heat transfer increases from about 70 to 250 as the aspect ratio increases from 0.15 to 1.0.•The radiative heat transfer decreases as the aspect ratio and solar radiation increases for turbulent flow.•For laminar flow, lower average convective and radiative heat transfer rates are obtained regarding the turbulent flow.