期刊
APPLIED SCIENCES-BASEL
卷 13, 期 11, 页码 -出版社
MDPI
DOI: 10.3390/app13116480
关键词
thermoelectrics; thermal control; Cubesat
This study explores the feasibility of using thermoelectric devices for thermal control in CubeSat onboard electronics. A simple thermoelectric architecture is proposed and an empirical model is constructed based on the performance data of a commercially available module. The study calculates the temperature that the system can cool a computer chip to, taking into consideration thermal resistance and heat rejection. The analysis shows that while thermoelectric cooling can be beneficial in some scenarios, it may actually increase the temperature of the electronics being cooled in certain circumstances, especially when there is a high thermal resistance or heat being removed. Furthermore, the need for a high-quality radiator may limit the potential benefits of thermoelectric devices in many cases.
A feasibility study is presented exploring the possibility of using thermoelectric devices for the thermal control of CubeSat on-board electronics. A simple thermoelectric architecture is devised and an empirical model for how such a system would perform is constructed, using the performance data of a commercially available thermoelectric module. This is used to calculate the temperature to which the system could cool a computer chip, as a function of thermal resistance and heat rejection. As a baseline scenario, the temperature of the system without the thermoelectric device is compared and the benefit, or otherwise, of using a thermoelectric module is calculated. Analysis shows that in some circumstances introducing a thermoelectric device would actually increase the temperature of the electronics being cooled. This is most common when the quantity of heat being removed, or the thermal resistance of the system, is high. Nevertheless, thermoelectric cooling is beneficial for a range of conditions, such as for cooling the computer chip below ambient temperature, however a good quality radiator is required. This constraint could undermine the thermoelectric device's potential benefit in many cases, due to the need for an unrealistically large radiator.
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