热电固态空调的设计与制造

IF 0.2 Q4 MULTIDISCIPLINARY SCIENCES Suranaree Journal of Science and Technology Pub Date : 2023-12-14 DOI:10.55766/sujst-2023-05-e02930
Archusuek Mameekul, A. Vora–ud, Surasak Ruamruk, W. Namhongsa, P. Pilasuta, K. Singsoog, S. Thaowankaew, T. Seetawan
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引用次数: 0

摘要

在这项研究中,我们设计并制造了热电固态空调器(TESSAC),使用热电冷却(TEC)模块(型号:TEC1-12710)的 3 个模块,热量单位为 400 BTU/小时。通过液态钼冷却剂的铝水散热系统进行热管理,以控制 TEC 模块热侧的温度。根据实验结果,一个模块的 TEC1-12710 可通过将温度降至 -8.5oC 产生冷却。3 个模块的有用 TEC 用作有用 TESSAC 制造后,TESSAC 冷端可冷却约 9.3°C,然后模拟室中心温度约为 27.5°C,环境温度为 33.5°C。经计算,在使用 202.31 W 交流电的情况下,TESSAC 的性能系数(COP)约为 5.5。
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DESIGN AND FABRICATION OF THERMOELECTRIC SOLID-STATE AIR CONDITIONER
In this study, we designed and fabricated of thermoelectric solid-state air conditioner (TESSAC) within 400 BTU/hour by using a thermoelectric cooling (TEC) module (model: TEC1-12710) for 3 modules. Thermal management was carried out with the aluminum water-to-radiator system through the liquid moly coolant for controlling the temperature on the hot side of the TEC module. The cooling performance and electrical power were measured during the operating system as performed in one cubic meter for 3 h. According to the experimental results, the TEC1-12710 of one module could be generated cooling by decreasing the temperature to -8.5oC. After useful TEC of 3 modules as useful TESSAC fabrication, TESSAC could be cooled at the cold side around 9.3°C, then the temperature at the center simulation room is around 27.5°C within the ambient temperature of 33.5°C. The coefficient of performance (COP) of TESSAC was calculated to be obtained around 5.5 with the AC power used of 202.31 W.
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来源期刊
Suranaree Journal of Science and Technology
Suranaree Journal of Science and Technology MULTIDISCIPLINARY SCIENCES-
CiteScore
0.30
自引率
50.00%
发文量
0
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