2021
DOI: 10.3390/polym13111769
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Numerical Study Using Microstructure Based Finite Element Modeling of the Onset of Convective Heat Transfer in Closed-Cell Polymeric Foam

Abstract: 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 ef… Show more

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Cited by 7 publications
(4 citation statements)
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“…Foam concrete can be regarded as a two-phase material composed of a hardened cementitious matrix and air; macroscopically, the inhomogeneous material can be considered as a homogeneous medium [50]. Therefore, heat transfer in foam concrete includes thermal conduction through the solid matrix, thermal conduction and convection in the gas-filled pores, and thermal radiation between different parts of the material.…”
Section: Heat Transfer Mechanismmentioning
confidence: 99%
See 1 more Smart Citation
“…Foam concrete can be regarded as a two-phase material composed of a hardened cementitious matrix and air; macroscopically, the inhomogeneous material can be considered as a homogeneous medium [50]. Therefore, heat transfer in foam concrete includes thermal conduction through the solid matrix, thermal conduction and convection in the gas-filled pores, and thermal radiation between different parts of the material.…”
Section: Heat Transfer Mechanismmentioning
confidence: 99%
“…Although existing numerical models can consider the randomness and complexity of the microstructure, they only address heat transfer problems under pure conduction. There is limited involvement in the study of convective heat transfer and radiative coupled heat transfer within pores, and no studies have been conducted on convective and radiative heat transfer in foam concrete using real microstructures [50].…”
Section: Introductionmentioning
confidence: 99%
“…Of the three principal heat transport mechanisms in foamsconduction (by the solid cell wall material and by gases filling the foam cells), radiation, and convection thermal conductivity in low-density PU foams is governed by the first two, because heat transfer by convection is negligible at the sub-millimeter cell size and moderate temperature gradients characteristic for such foams. , The thermal conductivity λ f of homogeneous low-density foams can be accurately approximated by the sum of the respective conductivities ,, λ normalf = λ normals normalo normall + λ normalr normala normald + ε λ normalg where the solid conductivity is denoted by λ sol , that due to radiation by λ rad and λ g stands for the conductivity of cell gas. The contribution of gas conductivity to that of the foams is proportional to foam porosity ε, which can be expressed by the foam and solid densities as ε = 1 ρ f / ρ s .…”
Section: Thermal Aging Model Of Foamsmentioning
confidence: 99%
“…Of the three principal heat transport mechanisms in foams�conduction (by the solid cell wall material and by gases filling the foam cells), radiation, and convection� thermal conductivity in low-density PU foams is governed by the first two, because heat transfer by convection is negligible at the sub-millimeter cell size and moderate temperature gradients characteristic for such foams. 6,26 The thermal conductivity λ f of homogeneous low-density foams can be accurately approximated by the sum of the respective conductivities 6,25,27…”
Section: Thermal Aging Model Of Foamsmentioning
confidence: 99%