The prediction of radiation heat transfer in open cell metal foams by a model based on the Lord Kelvin representation

2014 ◽  
Vol 76 ◽  
pp. 499-508 ◽  
Author(s):  
Gaetano Contento ◽  
Maria Oliviero ◽  
Nicola Bianco ◽  
Vincenzo Naso
Keyword(s):  
Heat Transfer ◽  
Radiation Heat Transfer ◽  
Metal Foams ◽  
Radiation Heat ◽  
Open Cell ◽  
Model Based ◽  
Lord Kelvin

scholarly journals Numerical Analysis on the Radiation-Convection Coupled Heat Transfer in an Open-Cell Foam Filled Annulus

Energies ◽  
2018 ◽  
Vol 11 (10) ◽  
pp. 2713 ◽  
Author(s):  
Xue Chen ◽  
Chuang Sun ◽  
Xinlin Xia ◽  
Rongqiang Liu
Keyword(s):  
Heat Transfer ◽  
Nusselt Number ◽  
Average Nusselt Number ◽  
Pore Diameter ◽  
Radiation Heat Transfer ◽  
Radiation Heat ◽  
Open Cell ◽  
Coupled Heat Transfer ◽  
Open Cell Foam ◽  
Cell Foam

Forced flow and radiation-convection coupled heat transfer in an annulus filled with open-cell foam was numerically investigated at high temperatures. The Darcy-Brinkman-Forchheimer model was utilized to represent the fluid transport. The two-energy equation model was applied for the non-equilibrium heat exchange between the fluid and solid phases, while the radiation heat transfer within the foam material was solved using the P1 approximation. Two different cases of thermal boundary conditions were studied and discussed in detail, namely the inner wall with a constant heat flux while the outer wall was adiabatic (case I) and vice versa (case II). The effects of pertinent factors on the heat transfer characteristics were examined, such as the foam structural parameters and the radii ratio of the annulus. The temperature, local and average Nusselt number were predicted. The results indicate that neglecting the thermal radiation causes a large deviation in predicting the thermal performance of such foam-fluid systems. Increasing the porosity and pore diameter both promote the radiation heat transfer, while it is weakened by increasing the radii ratio. The average Nusselt number decreases as the porosity increases, while it exhibits a non-monotonic change with the pore diameter and radii ratio. Besides, case I shows a higher average Nusselt number than case II and presents an improved thermal performance.

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