Optimizing the Effective Conductivity and Cost of Gas-Filled Panel Thermal Insulations

Date Published
11/1993
Publication Type
Conference Paper
Authors
LBL Report Number
LBL-36134
Abstract

Gas-Filled Panels, or GFPs, are an advanced theimal insulation that employ a low-conductivity, inert gas, at atmospheiic pressure, within a multilayer reflective baffle. The thermal performance of GFPs varies with gas conductivity, overall panel thickness, and baffle construction. Design parameters of baffle constructions that have a strong effect on GFP thermal resistance are (1) cavities per thickness, (2) cavity surface emittance, and (3) conductance of the baffle materials. GFP thermal performances, where the above parameters were varied, were modeled on a spreadsheet by iterative calculation of one-dimensional energy balances. Heat flow meter apparatus measurements of prototype GFP effective conductivities have been made and are compared to results of the calculations. The costs associated with varying baffle constructions are estimated based on the prices of commercial material components. Results are presented in terms of cost per area per unit thermal resistance ($/Area*R-Value) and are usefid for optimizing GFP designs forsair, argon, or krypton gas fills and a desired effective conductivity and thickness.

Conference Name
22nd International Thermal Conductivity Conference
Year of Publication
1993
Conference Location
Tempe, AZ
Call Number
LBL-36134
Custom 1
<p>Windows and Daylighting Group</p>
Organizations
Research Areas
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