Vapor compression (VC) is by far the most dominant technology for meeting all cooling and refrigeration needs around the world. It is a mature technology with the efficiency of modern compressors approaching the theoretical limit, but its environmental footprint remains a global problem. VC refrigerants such as hydrochloroflurocarbons (HCFCs) and hydrofluorocarbons (HFCs) are a significant source of green house gas emissions, and their global warming potential (GWP) is as high as 1000 times that of CO2 [Buildings Energy Data Book (Building Technologies Program, Department of Energy, 2009)]. There is an urgent need to develop an alternative high-efficiency cooling technology that is affordable and environmentally friendly [A. D. Little, Report For Office of Building Technology State and Community Programs, Department of Energy, 2001]. Here, we demonstrate that elastocaloric cooling (EC), a type of solid-state cooling mechanism based on the latent heat of reversible martensitic transformation, can have the coefficient of performance as high as ≈11, with a directly measured ΔT of 17 °C. The solid-state refrigerant of EC completely eliminates the use of any GWP refrigerants including HCFCs/HFCs.
REFERENCES
The Canadian Renewable Energy Network publication “Commercial Earth Energy System” (CANMET Energy Technology Centre-Varennes, CANETA Research and TECHNOSIM Consulting Group For Renewable and Electrical Energy Division, Natural Resources of Canada, ISBN 0-662-32808-6, Cat. No. M92-252/2002E, 2002).
Calculated by dividing measured COP by Carnot cycle COP for the same temperature range.
Estimated based on materials performance instead of system performance.