Revolutionising Future Refrigeration Systems With A New Cooling Mechanism

20 December 2023

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Electrocaloric Materials & Refrigeration Technologies

Luxembourg scientists have developed a regenerator that could eventually replace the conventional compressor and the environmentally harmful fluids in current refrigerators, providing a more energy-efficient and sustainable cooling solution.

Approximately one-fifth of the world’s electric energy is dedicated to refrigeration, and the International Energy Agency anticipates a twofold increase in the number of air conditioning units by 2040. Despite a century of advancements, existing refrigeration systems, relying on vapour compression, have hit their thermodynamic threshold. These systems not only emit greenhouse gases, contributing to environmental issues, but also produce significant noise. Prioritizing the development of energy-efficient and eco-friendly systems is thus paramount to address global warming and encourage the responsible utilization of natural resources.

A team of researchers from the Luxembourg Institute of Science and Technology (LIST) have developed a technology with the potential to transform future refrigeration systems. Their latest research milestone, recently published in Science, details the mechanism, which focuses on using the electrocaloric effect – a phenomenon wherein a material undergoes a reversible temperature alteration when subjected to an electric field – to achieve the desired result.

Emmanuel Defay and Alvar Torello 
© LIST
Emmanuel Defay and Alvar Torello © LIST

A more energy-efficient and sustainable cooling solution

In this particular case, the electrocaloric effect involves applying an electric field to ceramic capacitors, inducing temperature changes, and creating a cooling effect. “Our proposed solution involves an assembly of multilayer capacitors stacked within an electrically connected fluid-filled pipe,” explains Dr Emmanuel Defay, who leads the Nanotechnology unit within the Materials Research and Technology (MRT) department at LIST. Defay and his team have been working on electrocaloric materials for several years. “The fluid flows back and forth between the capacitors, creating a temperature gradient,” he adds.

This assembly, called a regenerator, could eventually replace the conventional compressor and the environmentally harmful fluids in current refrigerators, providing a more energy-efficient and sustainable cooling solution. Indeed, energy efficiency is another key advantage of this technology.

Extending the technology application beyond refrigeration

The potential applications of this technology extend beyond refrigeration, including air conditioning.
The team is currently actively engaging with various companies to explore practical applications of the technology, marking an important step towards the implementation of the solution. Indicatively, the regenerator was designed in collaboration with the Japanese manufacturing company Murata.

While we are already making tangible progress, we are continually working to enhance the maturity and practicality of our technology. The ultimate goal is to offer a viable and sustainable alternative to current refrigeration solutions.

Dr Emmanuel Defay

More about Nanotechnologies, Pyroelectric and Electrocaloric Materials Research

Addressing energy-related challenges has been set among our research priorities over the past five years. It is imperative to showcase the applicability of our cutting-edge materials in technologies that effectively harness energy, produce and store green hydrogen, enhance energy efficiency, and reduce overall energy demand. Turning the top-level research conducted at LIST into practical and disruptive technologies is the cornerstone for a renewed industrial leadership in Europe, all while adhering to the highest environmental standards. This particular technology, developed under the leadership of Dr Emmanuel Defay, represents one of several exceptional contributions from LIST that bolster Luxembourg’s reputation as a hub for research-driven innovations with substantial added value for both the country and Europe.

Dr Damien Lenoble, director of the Materials Research and Technology department

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