The use of thermoelectric generators (TEGs) to recover useful energy from waste heat has increased rapidly in recent years with applications ranging from microwatts to kilowatts. Several thermoelectric modules can be connected in series and/or parallel (forming an array) to provide the required voltage and/or current. In most TEG systems the individual thermoelectric modules are subject to temperature mismatch due to operating conditions. Variability of the electro-thermal performance and mechanical clamping pressure of individual TEG modules are also sufficient to cause a significant mismatch. Consequently, when in operation each TEG in the array will have a different electrical operating point at which maximum energy can be extracted and problems of decreased power output arise.\ud\udThis work analyses the impact of thermal imbalance on the power produced at module and system level in a TEG array. Experimental results clearly illustrate the issue and a theoretical model is presented to quantify the impact. The authors believe the experimental results presented in this paper are the first to validate a rigorous examination of the impact of mismatched operating temperatures on the power output of an array of thermoelectric generators.
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机译:近年来,使用热电发生器(TEG)从废热中回收有用能量的应用迅速增加,应用范围从微瓦到千瓦。几个热电模块可以串联和/或并联(形成阵列)以提供所需的电压和/或电流。在大多数TEG系统中,由于工作条件的原因,单个热电模块会出现温度不匹配的情况。各个TEG模块的电热性能和机械夹紧压力的差异也足以引起严重的失配。因此,在运行时,阵列中的每个TEG将具有不同的电运行点,在该电运行点处可以提取最大能量,并出现功率输出降低的问题。\ ud \ ud TEG阵列中的系统级别。实验结果清楚地说明了这个问题,并提出了一个理论模型来量化影响。作者认为,本文提出的实验结果是第一个验证严格检查工作温度不匹配对热电发电机阵列功率输出的影响的第一个实验结果。
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