A non-volatile thermal switch for building energy savings

Date Published
07/2022
Publication Type
Journal Article
Authors
DOI
10.1016/j.xcrp.2022.100960
Abstract

Compared with traditional static insulation, a thermally switchable building envelope could reduce annual heating and cooling loads by intermittently coupling to the outside environment when beneficial. Here, we demonstrate a voltage-actuated, contact/non-contact thermal switch that meets the unique challenges of this application. The switch is non-volatile, consuming electricity only briefly while switching and none to hold steady state. The switch ratio is 12, the off state has a low effective thermal conductivity of 0.045Wm-1K-1, comparable to fiberglass insulation, and the performance is stable over 1,000 switching cycles. Numerical simulations using real-world climate data show that combining this thermal switch with a thermal storage layer in a building envelope can yield annual energy savings of 9%–55% (heating) and 17%–76% (air conditioning), depending on the climate zone. The greatest benefits are realized when the exterior temperature crosses well above and below the desired interior temperature within a single 24 h period.

Journal
Cell Reports Physical Science
Volume
3
Year of Publication
2022
Issue
7
Pagination
100960
ISSN Number
26663864
URL
Short Title
Cell Reports Physical Science
Organizations
Research Areas
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