Elastocalorics Could Replace Heat Pumps, Air Conditioning Systems
17th July 2024
The €4 million ($4.36 million) EIC Pathfinder Challenge research project aims to develop a prototype for decentralized room air conditioning within three years. According to the research team, the technology is rated by the World Economic Forum (WEF) as one of the “TOP Ten Technologies 2024.” The US Department of Energy and the European Commission have also declared it to be the most promising alternative to conventional heating and cooling.
The solid-state heating and cooling process is based on transporting heat into or out of a room by loading and unloading a so-called shape memory material, for example in the form of wires. The material absorbs heat when it is loaded, for example when it is pulled, and releases it again when the load is removed.
The researchers, led by elastocalorics pioneer Paul Motzki, are using the superelastic nickel-titanium alloy for this purpose. Materials made from this alloy return to their original shape after deformation because they have two crystal lattices and thus two phases. While water, for example, assumes the solid, liquid and gaseous phases, in nickel-titanium both phases are solid but merge into one another.