4.8 Article

Electrocaloric heat pumps using two independently-controlled layers to achieve high cooling power

Journal

NANO ENERGY
Volume 104, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.nanoen.2022.107984

Keywords

Electrocaloric effect; Heat pump; Cooling device; Cooling power; Electrocaloric materials

Funding

  1. U.S. Department of State, Bureau of Educational and Cultural Affairs (ECA)
  2. United States Agency for International Development (USAID)
  3. United States Educational Foundation in Pakistan (USEFP)
  4. Institute of International Education under the Fulbright Foreign Student Program
  5. Southeastern Regional Sun Grant Center at the University of Tennessee through USDA [2020-38502-32916]

Ask authors/readers for more resources

The development of electrocaloric materials with strong electrocaloric effect in recent years provides an opportunity for the development of solid-state heat pumps. By introducing a design that uses two layers of an ECM and independently controls the electric field on each layer, heat pumps with high cooling power can be developed. The new design shows improved reliability and performance compared to existing ECE-based heat pump systems.
The development of electrocaloric materials (ECMs) with strong electrocaloric effect (ECE) in recent years offers a great opportunity for the development of solid-state heat pumps without using environmentally unfriendly vapor-based technologies. Currently existing ECE-based heat pumps (CEHPs) use one ECM layer that has to be moved back and forth between the thermal source (SO) and sink (SI), which raises reliability and safety concerns. Here, a design, which uses two layers of an ECM and the electric field on each layer is independently controlled with a special pattern, is introduced to develop ECE-based heat pumps with a high cooling power. In the design, the two ECM layers are permanently bound together and used as a single ECM module. The performance of the heat pumps is calculated using the newly introduced analytical solutions. First of all, it is found that the cooling power of CEHPs is strongly dependent on, while the cooling power of heat pumps using the two-ECM-layers module (TELM) is insensitive to, the materials used as the SO/SI. This would significantly expand the applica-tion of ECE-based heat pumps since in many applications there is no freedom to choose the materials to be used as the SO/SI. Secondly, the heat pumps using the TELM exhibit a high cooling power. For example, when different materials are used as the SO/SI, the cooling power of CEHPs would be changed over more than 100 times, while it is only changed less than 2 times when the TELM is used to replace the ECM layer used in CEHPs. And the cooling power of heat pumps using the TELM can be more than 7 times higher than the highest cooling power obtained in CEHPs. More importantly, the TELM can be permanently bound to the SO (or the SI) (i.e., the ECM is not moved at all during the operation), which would result in a high reliability. In this case, the cooling power of the heat pumps using the TELM can only be changed less than 25 % when different materials are used as the SO/SI and this cooling power is close to the highest cooling power obtained in the CEHPs.

Authors

I am an author on this paper
Click your name to claim this paper and add it to your profile.

Reviews

Primary Rating

4.8
Not enough ratings

Secondary Ratings

Novelty
-
Significance
-
Scientific rigor
-
Rate this paper

Recommended

No Data Available
No Data Available