Advances and obstacles in pressure-driven solid-state cooling: A review of barocaloric materials

IF 3.3 Q3 ENERGY & FUELS MRS Energy & Sustainability Pub Date : 2021-03-01 DOI:10.1557/s43581-020-00002-4

P. Lloveras, J. Tamarit

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引用次数: 4

Abstract

Highlights Barocaloric methods offer the widest range among solid-state caloric materials where to pick and choose. However, ideal barocaloric materials do not exist and a trade-off is required; Materials with high refrigerant capacity suffer from poor thermal conductivity and low density, and conversely. Abstract Solid-state caloric effects promise since decades a disruptive cooling technology that should be more efficient and cleaner than current vapor compression. However, despite relevant achievements have been made, it is still difficult to foresee the time left for the development and wide implementation of competitive devices. Recent progress in the response of materials under hydrostatic pressure offers hope for overcoming some of the shortcomings posed by other solid-state methods and augurs a good outlook for barocaloric cooling, but there are still many struggles ahead to address in order to demonstrate its viability as a commercial cooling technique. Here we briefly review the milestones achieved in terms of barocaloric materials and discuss the pending challenges and expectations for the oncoming years. Graphic abstract

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压力驱动固态冷却的进展与障碍:高压材料综述

亮点Barocardical方法在固态热量材料中提供了最广泛的选择。然而，理想的压热材料并不存在，需要进行权衡；具有高制冷能力的材料具有较差的导热性和低密度，反之亦然。摘要几十年来，固态热效应有望成为一种颠覆性的冷却技术，它应该比目前的蒸汽压缩更高效、更清洁。然而，尽管已经取得了相关成就，但仍很难预见竞争设备的开发和广泛实施所剩下的时间。材料在静水压力下响应的最新进展为克服其他固态方法带来的一些缺点提供了希望，并预示着压热冷却的良好前景，但为了证明其作为商业冷却技术的可行性，仍有许多困难需要解决。在这里，我们简要回顾了在压热材料方面取得的里程碑，并讨论了未来几年悬而未决的挑战和期望。图形摘要

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来源期刊

MRS Energy & Sustainability ENERGY & FUELS-

CiteScore

6.40

自引率

2.30%

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