Numerical study using microstructure based finite element modeling of the onset of convective heat transfer in closed-cell polymeric foam

Jorge Enrique Rivera-Salinas, Karla Monzerratt Gregorio-Jáuregui, Heidi Andrea Fonseca-Florido, Carlos Alberto Ávila-Orta, Eduardo Ramírez-Vargas, José Antonio Romero-Serrano, Alejandro Cruz-Ramírez, Víctor Hugo Gutierréz-Pérez, Seydy Lizbeth Olvera-Vazquez, Lucero Rosales-Marines

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4 Citas (Scopus)

Resumen

The thermal performance of closed-cell foams as an insulation device depends on the thermal conductivity. In these systems, the heat transfer mode associated with the convective contribution is generally ignored, and studies are based on the thermo-physical properties that emerge from the conductive contribution, while others include a term for radiative transport. The criterion found in the literature for disregarding convective heat flux is the cell diameter, however, the cell size for which convection is effectively suppressed has not been clearly disclosed, and it is variously quoted in the range 3-10 mm. In practice, changes in thermal conductivity are also attributed to the convection heat transfer mode, hence, natural convection in porous materials is worthy of research. This work extends the field of study of conjugate heat transfer (convection and conduction) in cellular materials using microstructure-based finite element analysis. For air-based insulating materials, the criteria to consider natural convection (Ra = 103) is met by cavities with sizes of 9.06 mm, however, convection is developed into several cavities despite their sizes being lower than 9.06 mm, hence, the average pore size that can effectively suppress the convective heat transfer is 6.0 mm. The amount of heat transported by convection is about 20% of the heat transported by conduction within the foam in a Ra = 103, which, in turn, produces an increasing average of the conductivity of about 4.5%, with respect to a constant value.

Idioma originalInglés
Número de artículo1769
PublicaciónPolymers
Volumen13
N.º11
DOI
EstadoPublicada - 1 jun. 2021

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