Z. Djafar, Abdul Halim, Mustofa Mustofa, L. A. Latif, W. H. Piarah
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引用次数: 0
摘要
太阳能强度是考察热电发电机(TEG)性能的一个重要因素。大多数研究仅以冷却模式及其材料的形式考察处理对TEG模块的影响。因此,本研究考察了太阳强度值对组件电压大小的影响。在模块的热侧放置铜、铁、铝板的吸热板和非集热器板。模块级联串联,每板多达14个模块,因此总共使用56个TEG模块。数据收集在所有板块上同时进行。测试结果表明,太阳强度的增加与TEG组件电压的大小成线性关系,即成正相关关系。数据还表明,铜集电极产生的电压差最大,其次是铁、氧化铝和无集电极,分别为∆V 0.871、0.805;分别为0.369 V和0.153 V
Correlation of Sunlight Intensity and Output Voltage on Collector Plate-based Cascaded Thermoelectric Generator Modules
The intensity of solar energy is an important factor in viewing the performance of the thermoelectric generator (TEG). Most studies only look at the effect of treatment on the TEG module in the form of cooling mode and its materials. Therefore this study examines the effect of the solar intensity value on the magnitude of the module voltage. On the hot side of the module are placed heat absorber plates of copper, Fe and aluminum plates as well as non collector plates. Modules are cascaded and connected in series as many as 14 modules per plate, so that a total of 56 TEG modules are used. Data collection is carried out simultaneously on all plates. The test results show that the increase in solar intensity is liner with the magnitude of the TEG module voltage or in other words the correlation is positive. The data also shows that copper collector plates produce the highest voltage difference, followed by Ferro, Alumina and no-plates at ∆V 0.871, 0.805; 0.369 and 0.153 V, respectively
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