温差发电

温差发电技术及其在汽车发动机排气余热利用中的应用

Thermoelectric Generation Technology and its Application in Exhaust Waste Heat Utilizing for Automobile 's Engine

温差发电&种新型绿色的能源技术

Thermoelectric electricity generation & a new green energy technique

本文论述了Co基氧化物热电材料的结构特征和热电特性，介绍了制备热电陶瓷及热电薄膜的各种方法，阐述了提高热电材料热电特性的途径以及热电材料在温差发电和制冷方面的应用。

This paper discussed the structural and thermoelectric properties of cobalt oxides system thermoelectric materials , introduced various method of preparing thermoelectric ceramics and thermoelectric films , reviewed the ways of how to improve thermoelectric performances .

本文重点介绍了一种通过半导体温差发电方法利用LNG冷能并联合电解水制氢的新设想，对该方案进行了深入的理论和实验研究。

A new method , which can utilize LNG cold energy by semiconductor thermoelectric ( TE ) associating with water-electrolytic hydrogen making , is introduced in this thesis . Theoretical and experimental researches are deeply preceded .

提出了一套值得探讨的优化设计方案，展望了Bi2Te3基热电材料在温差发电和半导体制冷领域颇具潜力的应用前景。

In addition , a potential optimization technique was proposed . The expectation of the application of Bi_2Te_3-based thermoelectric materials in thermopile and refrigeration was described .

建立了半导体温差发电器件的基本模型；

A basic model of semiconductor thermoelectric generator is constituted .

根据温差发电模块输出电压不稳定的特点，设计了一个稳压电路。

A regulated circuit was designed to stabilize the voltage .

半导体制冷及温差发电器件的计算机辅助设计

Computer Auxiliary Design of Thermoelectric Cooling and Power Generation System

温差发电和动力装置联合回收液化天然气冷能

Power generation cycle combined with TEG recovering LNG cold energy

温差发电的热力过程研究及材料的塞贝克系数测定

Thermodynamic Analysis of Thermoelectric Process and Measurement for Seebeck Coefficient of Thermoelectric Material

低温半导体温差发电循环的工作性能分析

The performance analysis for semiconductor thermoelectric cycle which works at small temperature difference

温差发电技术及其在节能领域的应用

Thermoelectric Generation Technology and Application for Energy Conservation

转炉半导体温差发电系统结构设计及数值模拟

Kiln Thermoelectric Generator Structure Design and Numerical Simulation

一种新能源发电&海水温差发电

Generation of electricity by temperature difference of sea water & a new source of energy

软件包括两个子程序：半导体制冷器件设计，温差发电器件设计。

The software consists of two subprograms : thermoelectric cooling module and power generation module .

半导体温差发电器件的热力学分析

Thermodynamic Analysis of Semiconductor Thermoelectric Generator

热电材料由于在热电制冷和温差发电方面具有广阔的应用前景而受到广泛的重视。

Thermoelectric materials attract much attention because of its potential application for refrigerators or power generators .

最后，对全文的总结分析，并对太阳能温差发电的看法与展望。

Finally , summarize this article and analyze the the prospect and view of solar thermoelectric power .

肯定能进入决赛的选手海洋温差发电有机朗肯循环工质选择

Certain qualifier for finals Selection of working fluids for ocean thermal energy conversion power generation organic Rankine cycle

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 .

并对半导体温差发电模块的工作性能进行了分析，主要考虑了电偶臂的几何尺寸、接触效应和汤姆逊效应对其工作性能的影响。

The working performance of thermoelectric generator is analyzed mainly on the base of couple size , contact effect and Thomson effect .

本文查阅了国内外关于半导体温差发电方面的大量文献和书籍，介绍了温差发电的相关原理、历史，以及当前的最新研究进展和应用。

This thesis introduces the related principle , history , as well as current research progress and application of thermoelectric generation ( TEG ) .

温差发电技术利用材料的塞贝克效应，可将热能直接转换成电能，具有结构紧凑、无磨损、无泄漏、清洁、无噪声、寿命长、可靠性高等一系列优点。

It has the advantages of compact structure , no wear , no leaks , no noise , clean , long life , high reliability .

利用它做成的热电器件，在温差发电和温差制冷等方面具有广阔的应用前景。

The thermoelectric devices that are made of it will have a bright future in power generation and cooling under the condition of temperature difference .

温差发电技术绿色环保，特别是它不受温差限制的独特优势令越来越多的人看到了其在太阳能等低品位热源利用领域的潜力。

Particularly it has no limit to temperature so the unique advantage makes more and more people see its potentiality in the Low-grade heat recovery field .

温差发电是利用半导体的塞贝克效应将热能转化为电能的全静态清洁发电方式。

The thermoelectric generation is a kind of all static clean power generation , which converts the heat into electricity though the seebeck effect of semiconductor .

研究了半导体温差发电模块输出电压/输出功率与冷热面温度差的关系，并搭建了利用半导体温差发电模块产生的电能作为能量的一种锂离子蓄电池充电装置。

The relation between output voltage / power of the STM ( semiconductor thermoelectric module ) and the temperature difference between two sides of it was discussed .

仿真结果表明，本文所研究的汽车尾气温差发电转换器满足使用要求，可以为今后的相关研究提供参考。

The simulation results show that the automobile exhaust thermoelectric power converter studied in this paper meet the requirements of the usage , can provide a reference for future research .

作为论文主要部分之一的实验研究部分，作者依照温差发电的基本原理设计并搭建了小温差下利用低品位热源发电的实验平台。

As one of main parts , the thesis designs and builds experimental platform using the low-grade heat source of small temperature difference according to the basic principle of TEG .

利用此评价指标，评价热端气箱温度场的均匀性，作为温差发电模块拓扑结构设计的理论依据。

With this evaluation target , the uniformity of the gas tank on the hot end temperature field can provide a theoretical basis for topological structure of the thermoelectric modular .