热电材料和设备:在提高建筑能源转换和效率方面的应用

Qi Sun, Chunyu Du, Guangming Chen
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引用次数: 0

摘要

随着建筑物能耗的增加和人们对清洁能源的追求,人们对应用各种能量收集器将建筑物内部和周围不同形式的能量转化为电能进行了广泛的研究。这包括光伏和压电等技术。其中,热电发电机的集成为减轻建筑物的能耗负担提供了一种前景广阔的解决方案。然而,目前还缺乏关于热电发电机在这方面应用的系统综述。本综述从材料、设备和应用三个方面系统地总结了热电发生器在建筑中的研究现状。文章首先介绍了热电转换和热电发电机的基本原理,然后总结了建筑能量采集应用中的代表性热电材料、性能优化方法和优化设备设计。最后,对热电发电机在各种建筑结构中的应用进行了详细分类和讨论。这篇综述为研究人员和从业人员提供了宝贵的见解,旨在利用热电发电机技术实现更节能、更可持续的建筑设计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Thermoelectric materials and devices: Applications in enhancing building energy conversion and efficiency
As energy consumption in buildings increases and the search for clean energy intensifies, the application of various energy harvesters to convert different forms of energy present within and around buildings into electrical energy has been extensively researched. This includes technologies such as photovoltaics and piezoelectrics. Among these, the integration of thermoelectric generators offers a promising solution to alleviate the energy consumption burden of buildings. However, there is currently a lack of systematic reviews on the application of thermoelectric generators in this context. This review systematically summarizes the research status of thermoelectric generators in buildings from three perspectives: materials, devices, and applications. It begins by introducing the fundamental principles of thermoelectric conversion and thermoelectric generators, followed by a summary of representative thermoelectric materials, performance optimization methods, and optimized device designs for building energy harvesting applications. Finally, a detailed classification and discussion of the applications of thermoelectric generators in various building structures are provided. This review offers valuable insights for researchers and practitioners aiming to utilize thermoelectric generators technology for more energy-efficient and sustainable building design.
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