温差电池

通过实验和研究确定制作新TEM（温差电池）模块的工艺途径，提高热面工作温度。

Developing new manufacture technique of TEM module can improve the work-temperature of hot surface and gain high power efficiency .

有人建议将核能温差电池用作太阳系统远程空间探测仪的能源。

Nuclear energy thermoelectric generators are proposed as power sources for the solar system deep space explorers .

分析了盐水预热器腐蚀的原因，包括盐水腐蚀、应力腐蚀、杂散电流腐蚀和温差电池腐蚀。

Corrosion reasons of brine preheater were analysed , including brine corrosion , stress corrosion , stray current corrosion and thermocell corrosion .

目前已开展研究的微电池系列有：微型锌镍电池，微型全固态锂电池，微型太阳电池，微型温差电池，微型燃料电池等。

Presently , several micro-batteries have been studied such as Zn-Ni micro-battery , all-solid-state lithium micro-battery , solar micro-cell , micro thermoelectric battery and fuel micro-battery .

介绍了国际上微型锌镍电池、微型固体电解质锂电池、微型太阳电池、微型温差电池及微型燃料电池和微型核电池研究工作的最新进展

The updated research progress on micro Zn Ni battery , micro lithium battery with solid electrolyte , micro solar cell , micro thermoelectric battery and micro fuel cell at abroad are introduced . A New Type of Micro-thermoelectric Power Generator

热电材料又称温差电池材料，可以实现热能和电能的相互转换，是一种应用于温差发电和热电制冷的新型功能材料。

Thermoelectric material is named temperature battery material , which can convert thermal energy directly to electric energy and vice versa . It is a kind of novel functional material which can primarily be used in refrigeration and power generation .

在相同充放电倍率条件下，环境温度越高，电池内部最高温度和表面温度之间的温差越大，电池内部温度场分布均匀性越差。

With the ambient temperature increasing temperature difference between the highest temperature and surface temperature inside the battery increased . Under the same rate , and uniform temperature distribution decreased .

从模拟结果看，强制对流条件下，电池的工作温度和温差都能够满足电池散热需要。（4）为了验证设计并改进电池组，进行梯形排列电池组样机实验。

Under forced ventilation condition , the simulated results fit the cooling target . ( 4 ) The ladder pattern prototype battery pack is designed , and to validate and optimize the design .

温差发电器（温差电池）是热电技术的另一重要应用。

Thermoelectric generator ( thermoelectric battery ) is another important application of thermoelectric technology .

电化学沉积方法在制备温差电材料方面具有显著的成本优势，为此作者基于电化学沉积技术，开展微型温差电池的结构设计及相关制备技术研究。

The electrochemical deposition method has excellent cost advantage . The writer carried out the research of the structure design and manufacture technology .