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J. D. McAllister

Bio: J. D. McAllister is an academic researcher. The author has contributed to research in topics: Energy conservation & Thermal insulation. The author has an hindex of 2, co-authored 2 publications receiving 28 citations.

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Journal ArticleDOI
TL;DR: In this paper, the authors investigated heat transfer in one-dimensional multi-layer models of polymer foams and determined their equivalent thermal conductivities, i.e., combined heat transfer by conduction and radiation in both phases and partial photon reflection on phase interfaces, and found that although radiation can account for more than one-third of the total heat flux, it can be reduced in foam with cell-sizes below 100 μ m and be almost nullified by decreasing the foam cell size to sub-micron range.

68 citations

Journal ArticleDOI
TL;DR: In this article, a wide range of pore sizes from 1 nm to 1 mm were studied in conjunction with the porosity effect using finite element analysis and molecular dynamics simulation methods.
Abstract: Many theoretical and empirical models exist to predict the effective thermal conductivity of polymer foams. However, most of the models only consider the effect of porosity, while the pore size effect is ignored. The objective of this study is to understand the effect of pore size on the thermal conductivity of polymer foams, especially when it reduces to the micro and nanometer scales. A wide range of pore sizes from 1 nm to 1 mm were studied in conjunction with the porosity effect using finite element analysis and molecular dynamics simulation methods. Experimental data was used to validate the modeling result. It is shown that the pore size has significant effect on thermal conductivity, even for microcellular and conventional foams. The contribution of heat conduction through air is negligible when pore size is reduced to the micrometer scale. The extremely low thermal conductivity of nanofoams is attributed to extensive diffusive scattering of heat carriers in the solid phase of polymer matrix, instead of air. This study provides quantitative understanding of the pore size effect on thermal conductivity of polymer foams. It is also shown that polyetherimide (PEI) nanofoams could have a thermal conductivity as low as 0.015 W/m-K. POLYM. ENG. SCI., 2013. © 2013 Society of Plastics Engineers

50 citations

Journal ArticleDOI
TL;DR: A new holistic approach provides a distinct advantage over similar porous media approaches by providing direct control and tuning of particle packing characteristics such as aggregate size, shape and pore size distributions and studying their influence directly on conduction and radiation independently.
Abstract: Due to reduced thermal conductivity, vacuum insulation panels (VIPs) provide significant thermal insulation performance. Our novel vacuum panels operate at reduced pressure and are filled with a powder of precipitated silicic acid to further hinder convection and provide static stability against atmospheric pressure. To obtain an in depth understanding of heat transfer mechanisms, their interactions and their dependencies inside VIPs, detailed microscale simulations are conducted. Particle characteristics for silica are used with a discrete element method (DEM) simulation, using open source software Yade-DEM, to generate a periodic compressed packing of precipitated silicic acid particles. This aggregate packing is then imported into OpenLB (openlb.net) as a fully resolved geometry, and used to study the effects on heat transfer at the microscale. A three dimensional Lattice Boltzmann method (LBM) for conjugated heat transfer is implemented with open source software OpenLB, which is extended to include radiative heat transport. The infrared intensity distribution is solved and coupled with the temperature through the emissivity, absorption and scattering of the studied media using the radiative transfer equation by means of LBM. This new holistic approach provides a distinct advantage over similar porous media approaches by providing direct control and tuning of particle packing characteristics such as aggregate size, shape and pore size distributions and studying their influence directly on conduction and radiation independently. Our aim is to generate one holistic tool which can be used to generate silica geometry and then simulate automatically the thermal conductivity through the generated geometry.

29 citations

Book ChapterDOI
01 Jan 1990
TL;DR: The Arab Oil Embargo of 1973 first brought the energy crisis to the attention of the American public and the severity of the crisis increased throughout the 1970s, peaking in 1979 when a minor but sudden shortfall of fossil fuels made energy consumers acutely aware of the consequences of fluctuating supplies of foreign oil as discussed by the authors.
Abstract: The Arab Oil Embargo of 1973 first brought the energy crisis to the attention of the American public. The severity of the crisis increased throughout the 1970s, peaking in 1979 when a minor but sudden shortfall of fossil fuels made energy consumers acutely aware of the consequences of fluctuating supplies of foreign oil. Gasoline and heating oil prices rose precipitously, consumers hoarded oil products, and there were long lines and even occasional outbreaks of violence at service stations.

26 citations