2007
DOI: 10.1016/j.colsurfa.2007.01.020
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Relationship between pore size and the gas pressure dependence of the gaseous thermal conductivity

Abstract: In porous materials, such as foams or pressed powder boards, the thermal conductivity via the gas phase represents at ambient temperatures a significant or even dominant contribution to the total thermal conductivity. The variation of the thermal conductivity of an open porous material with gas pressure is a function of the pore size. In the pressure range below 1 bar, measurement of thermal conductivity offers a non-destructive probe of pore sizes larger than 100 nm. If the thermal conductivity setup also all… Show more

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Cited by 153 publications
(85 citation statements)
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“…Literature shows thermal conductivity (λ) does not follow a linear dependence on gas pressure and is instead formulated as given in equation (3) [27]. This assertion was confirmed experimentally in studies by Isaia et al [14], Alam et al [17], Kwon et al [30], and Di et al [32]:…”
Section: Commercial and Super Insulation Heat Transfersupporting
confidence: 62%
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“…Literature shows thermal conductivity (λ) does not follow a linear dependence on gas pressure and is instead formulated as given in equation (3) [27]. This assertion was confirmed experimentally in studies by Isaia et al [14], Alam et al [17], Kwon et al [30], and Di et al [32]:…”
Section: Commercial and Super Insulation Heat Transfersupporting
confidence: 62%
“…This was shown by Lorentzati et al [16], Alam et al [17], Chen et al [21], and Di et al [32]. In standard modelling thermal conductivity is separated into the following components, these dependent on underlying physical processes [27]:…”
Section: Commercial and Super Insulation Heat Transfermentioning
confidence: 99%
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“…The confinement of the gas molecules within pores or a possible alteration of the phonon scattering mechanisms in the matrix are the mechanisms underlying this phenomenon. This expected reduction in the thermal conductivity has been previously experimentally demonstrated in aerogels [63,[106][107][108], porous metals [109], and porous ceramics [110] (these works will be discussed below for comparison). However, the thermal conductivity of polymeric foams is a recent issue because of the technical difficulties found in the production of nanoporous polymers with adequate densities, pore sizes, and external dimensions to allow the characterization of their properties as thermal insulators.…”
Section: Thermal Conductivitymentioning
confidence: 94%