热电珀尔帖模块的数学模型

I. Belovski, L. Staneva, A. Aleksandrov, P. Rahnev
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引用次数: 2

摘要

TEM(热电珀耳帖模块)是在温度梯度中转换电能的设备。它的作用基于珀尔帖效应。该装置结构简单,体积小,施工可靠性好,使用寿命长(20万小时以上)。它们没有任何活动部件或对环境有害的制冷剂。现代瞬变电磁炉效率很高,功率可达几百瓦。近年来,热电冷却系统得到了广泛的应用。它们已应用于现代车辆,用于在运输过程中冷却和保存产品,便携式冷却袋,计算机,军事和医疗设备。通常在TEM目录数据中会给出一些换能器的特性和最大参数,但它们不足以创建高效的热电系统。本文的目的是为瞬变电磁法的建模提供一种相对简单的方法,并用Matlab将结果以表格和图形的形式呈现出来。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mathematical Model of Thermoelectric Peltier Module
TEM (thermoelectric Peltier modules) are devices that convert electrical power in a temperature gradient. Its action is based on Peltier effect. The devices are relatively simple and with small dimensions, they possess a good construction reliability and long service life (over 200,000 hours). They do not have any moving parts or environmentally harmful refrigerants. Modern TEM are highly effective—with power up to several hundreds of watts. In recent years, thermoelectric cooling systems have been widely used. They have been applied in modern vehicles for cooling and preserving products during their transportation, in portable cooling bags, computer, military and medical equipment. Usually in TEM catalogue data present some transducer characteristics and maximum parameters, but they are insufficient to create highly efficient thermoelectric systems. The purpose of this article is to offer a relatively easy method for modeling of TEM, and the results are presented in tabular and graphic form by Matlab.
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