Barocaloric materials for sustainable heating and cooling
ORAL · Invited
Abstract
Barocaloric materials for sustainable heating and cooling
Half of the world’s CO2 emissions can be attributed to heating and cooling [1]. This is primarily due to heating with natural gas and cooling with compression of greenhouse gases, which are neither environmentally friendly nor energy efficient. Therefore there is great interest in developing solid-state heat pumps that can replace these environmentally damaging technologies. During this talk I will describe our work on mechanically responsive barocaloric materials, and present our recent advances on barocaloric heating and cooling systems.
[1] Climate change: science and solutions low-carbon heating and cooling, Royal Society, 2021.
Half of the world’s CO2 emissions can be attributed to heating and cooling [1]. This is primarily due to heating with natural gas and cooling with compression of greenhouse gases, which are neither environmentally friendly nor energy efficient. Therefore there is great interest in developing solid-state heat pumps that can replace these environmentally damaging technologies. During this talk I will describe our work on mechanically responsive barocaloric materials, and present our recent advances on barocaloric heating and cooling systems.
[1] Climate change: science and solutions low-carbon heating and cooling, Royal Society, 2021.
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Presenters
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Xavier Moya
Univ of Cambridge
Authors
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Xavier Moya
Univ of Cambridge