本文建立了多级半导体温差电冷台瞬态分析的数学模型。
A mathematical model of multi-stage semi-conductor thermoelectric refrigeration in the transient state is presented and a numerical analysis is made of the two-stage types.
讨论了温差电效应的起源和I类超导体不发生温差电效应的原因。
The origin of thermoelectric effects and the cause of no thermoelectric effect in type -i superconductors were discussed.
利用温差电堆测量人体辐射的红外能量,研制医用非接触体温计。
The thermopile used to measure infrared energy from body radiation, a medical noncontact thermometer is developed in this paper.
研究了温差电材料片的表面处理工艺,介绍了主要工艺步骤及实验过程。
The surface processing technology for thermoelectric material slices was studied while the main technological steps and experimental processes are introduced.
本文详细阐述了温差发电和温差电致冷技术的现状并讨论了该领域的发展趋势。
The current progress in thermoelectric energy conversion are summarized, the development trends of this area have been presented and discussed.
这些部件与一系列温差电偶或一个温差电堆相连接,随后被夹在两层陶瓷薄片之间。
The modules are connected to form an array of multiple thermocouples, or a thermopile. Then they're sandwiched between two thin ceramic wafers.
测试结果表明:由设计的元件制作出的分段温差电单偶的热电转换效率达到了7.31%。
The test results have shown that the thermoelectric conversion efficiency of segmented thermoelectric unicouple made by designed element reached to 7.31%.
在夏季用太阳能维持温差电偶吸热端较高的温度,用地下水维持温差电偶吸冷端较低的温度。
In summer higher temperature on the absorbing heat end of thermocouple is maintained by solar energy and lower temperature on the absorbing cold end of thermocouple is maintained.
利用商用温差电致冷组件发电技术大规模开发工业余热、汽车废热、垃圾燃烧热的时代已经到来。
The era that electricity generation in large scale using surplus heat of industry yet, waste heat of vehicle and burn heat of garbage by the commercial thermoelectric cooling module is coming.
本论文依据四探针法的基本原理并结合双脉冲技术,设计并制造适用于薄膜温差电材料的电阻率测试系统。
The thin film TE material resistivity measurement system which is designed in the thesis bases on the principle of four-probe method and double pulse technology.
该电沉积设备体积较小、操作方便、造价低廉、性能稳定、精确度高,完全满足电沉积薄膜温差电材料的需要。
The device is small in size, easy to operate, cheap, reliable, accurate, and it fulfills the need of electrodeposition of thin film TE material.
由于分段温差电元件能够在较宽的温度范围内很大程度地提高热电转换效率,因此,在世界范围内受到广泛的关注。
The segmented thermoelectric element has been paid much attention in the world because of its high thermoelectric conversion efficiency in wide temperature scope.
结果表明:随着入射光强度的增加,空气进出口温差、热和(火用)效率是增大的,而电效率则有所降低。
Results show that the air temperature difference, thermal and exergy efficiency increase with incident solar intensity increasing, but the electrical efficiency decreases.
结果表明:随着入射光强度的增加,空气进出口温差、热和(火用)效率是增大的,而电效率则有所降低。
Results show that the air temperature difference, thermal and exergy efficiency increase with incident solar intensity increasing, but the electrical efficiency decreases.
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