Elastocaloric Cooling: State-of-the-art and Future Challenges in Designing Regenerative Elastocaloric Devices

Strojniški vestnik – Journal of Mechanical Engineering Pub Date : 2019-11-18 DOI:10.5545/sv-jme.2019.6369

Parham Kabirifar, A. Žerovnik, Žiga Ahčin, Luka Porenta, M. Brojan, J. Tušek

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引用次数: 59

Abstract

The elastocaloric cooling, utilizing latent heat associated with martensitic transformation in shape-memory alloys, is being considered in the recent years as one of the most promising alternatives to vapour compression cooling technology. It can be more efficient and completely harmless to the environment and people. In the first part of this work, the basics of the elastocaloric effect (eCE) and the state-of-the-art in the field of elastocaloric materials and devices are presented. In the second part, we are addressing crucial challenges in designing active elastocaloric regenerators, which are currently showing the largest potential for utilization of eCE in practical devices. Another key component of elastocaloric technology is a driver mechanism that needs to provide loading for active elastocaloric regenerators in an efficient way and recover the released energy during their unloading. Different driver mechanisms are reviewed and the work recovery potential is discussed in the third part of this work.

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弹性热冷却:设计再生弹性热装置的现状和未来挑战

近年来，利用与形状记忆合金中马氏体相变相关的潜热的弹性热冷却被认为是蒸汽压缩冷却技术中最有前途的替代方案之一。它可以更高效，对环境和人类完全无害。在本工作的第一部分，介绍了弹性热效应(eCE)的基础知识和弹性热材料和器件领域的最新进展。在第二部分中，我们正在解决设计主动弹性热再生器的关键挑战，这是目前在实际设备中使用eCE的最大潜力。弹性能技术的另一个关键组成部分是驱动机构，该驱动机构需要以有效的方式为主动弹性能再生器提供负载，并在卸载过程中回收释放的能量。第三部分综述了不同的驱动机制，并讨论了采收率潜力。

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Strojniški vestnik – Journal of Mechanical Engineering

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