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Scientists build cooling system using solid refrigerants

  • marimac 

Scientists at Harvard University have built what is claimed to be a first-of-its-kind prototype cooling system using solid barocaloric refrigerants.

After solving several engineering challenges, the team has shown that the barocaloric materials work as functional refrigerants. Image credit: Harvard University
After solving several engineering challenges, the team has shown that the barocaloric materials work as functional refrigerants. Image credit: Harvard University

Barocaloric materials work similarly to traditional gas-liquid cooling systems, using pressure changes to go through heat cycles, but in this case, the pressure drives a solid-to-solid phase change. That means the material remains a solid, but the internal molecular structure changes.

The key structural aspect of these barocaloric solid materials is that they contain long, flexible molecular chains that are typically floppy and disordered. But under pressure, the chains become more ordered and rigid — a change that releases heat.

Jarad Mason, the project’s principal investigator at Harvard University, describes the process of going from an ordered to a relaxed structure as “like melting wax, but without it becoming a liquid.” When the pressure is released, the material reabsorbs heat, completing the cycle.

A disadvantage of barocaloric systems, however, is that most of these materials require massive pressures to drive heat cycles. To produce these pressures, the systems need expensive, specialised equipment that’s not practical for real-world cooling applications.

Protoype

Harvard University is one of a number of teams researching the use of these cheap and non-toxic organic materials.

Mason and his team recently reported barocaloric materials that can act as refrigerants at much lower pressures. They’ve now shown that the refrigerants – metal-halide perovskites – can work in a cooling system they’ve built from scratch.

“The materials we reported are able to cycle at about 3000psi, which are pressures that a typical hydraulics system can work at,” said Adam Slavney, a chemist and materials scientist at Harvard.

The team has now built a prototype that demonstrates the use of these new materials in a practical cooling system. The device has three main parts. One is a metal tube packed with the solid refrigerant and an inert liquid — water or an oil. Another piece of the device is a hydraulic piston that applies pressure to the liquid. Finally, the liquid helps transfer that pressure to the refrigerant and helps carry heat through the system.

After solving several engineering challenges, the team has shown that the barocaloric materials work as functional refrigerants, turning pressure changes into full temperature-changing cycles.

“Our system still doesn’t use pressures as low as those of commercial refrigeration systems, but we’re getting closer,” says Mason. To the team’s knowledge, this is the first working cooling system using solid-state refrigerants that rely on pressure changes.

With the device now in hand, the team plans to test a variety of barocaloric materials. “We’re really hoping to use this machine as a testbed to help us find even better materials,” says Slavney, including ones that work at lower pressures and that conduct heat better.

With an optimal material, the researchers believe solid-state refrigerants could become a viable replacement for current air conditioning and other cooling technologies.