Title :
Thermal insulation for energy storage
Author_Institution :
Electricity Council, Research Centre, Chester, UK
fDate :
10/1/1971 12:00:00 AM
Abstract :
Efficient thermal-energy storage requires effective thermal insulation. From a consideration of the possible heat-transfer modes, the requirements for a thermal barrier can be deduced. In a good conventional thermal insulation, most of the heat transfer takes place by conduction through the gas (air) in the insulation voids, the conductivity of the `still¿ gas representing the limiting performance of such a material. It follows that a better performance can be obtained only by reducing this gas-conducted heat by having voids smaller than the molecular mean-free path (`microporous¿), by replacing the air by a low-conductivity gas or by partially evacuating the insulation.
Keywords :
electric heating; energy storage; insulation; conduction through gas; conductivity of still gas; effective thermal insulation; energy storage; insulation voids; limiting performance of material; low conductivity gas; molecular mean free path; partial evacuation of insulation; possible heat transfer modes; requirements; thermal barrier;
Journal_Title :
Electrical Engineers, Proceedings of the Institution of
DOI :
10.1049/piee.1971.0263
