Thermal conductivity of vacuum insulation materials for thermal energy stores in solar thermal systems

摘要

The effective thermal conductivity of fine-grained and coarse-grained expanded perlites, fumed silica and a mixture of coarsegrained expanded perlite and fumed silica at different vacuum pressures is experimentally investigated in this paper. For the investigations two different test rigs-a guarded cylinder apparatus and a guarded hot plate apparatus-were used. The lowest effective thermal conductivities were performed with fumed silica at ambient pressure, with the mixture at pressures between 1 and 10 mbar and with fine-grained expanded perlite at 0.1 mbar and lower. Mixtures of fumed silica and expanded perlites appear to be a great chance to achieve low effective thermal conductivities and lower prices compared to pure fumed silica at vacuum pressures that can be easily achieved for large-volume thermal energy stores.