1 research outputs found
Scale law on materials efficiency of electrocaloric materials
Caloric materials are suggested as energy-efficient refrigerants for future cooling devices.
They could replace the greenhouse gases used for decades in our air conditioners, fridges,
and heat pumps. Among the four types of caloric materials (electro, baro, elasto, magneto caloric), electrocaloric materials are more promising as applying large electric fields is
much simpler and cheaper than the other fields. The research in the last years has been
focused on looking for electrocaloric materials with high thermal responses. However, the
energy efficiency crucial for future replacement of the vapor compression technology has
been overlooked. The intrinsic efficiency of electrocaloric has been barely studied. In the
present dissertation, we will study the efficiency of EC materials defined as materials efficiency. It is the ratio of the reversible electrocaloric heat to the reversible electrical work
required to drive this heat. In this work, we will study the materials efficiency of the benchmark lead scandium tantalate in different shapes (bulk ceramic and multilayer capacitors).
A comparison to other caloric materials is presented in this dissertation. Our work gives
more insights on the figure merit of materials efficiency to further improve the efficiency of
our devices