Free-Piston Stirling Engine Generators

Energy Conversion - Current Technologies and Future Trends Pub Date : 2018-11-05 DOI:10.5772/INTECHOPEN.79413

Songgang Qiu, Laura D. Solomon

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引用次数: 6

Abstract

Free-Piston Stirling Engines (FPSEs) have recently attracted attention as a promising energy conversion technology because of their desirable characteristics such as high effi -ciency, high reliability, and easy and quiet operation. FPSE are truly a closed cycle system that works using variations in the internal pressure to drive the power piston that is con nected to the reciprocating magnets in a linear alternator for energy conversion. The lack of manual linages and the use of clearance seals in a FPSE increase both the system’s reli ability and lifespan, as there is no contact or wear on the seals. These desirable attributes coupled with the fuel independence of FPSE makes them ideal candidates for use in remote power generation applications, particularly where maintenance is a high concern such as in NASA deep space missions, solar power generator, and combined heat and power systems. This chapter presents an introduction to FPSE along with a brief review of the underlying thermodynamics and Stirling cycle analysis. The general engineering analysis and numerical modeling approaches of Stirling engines will be discussed, fol - lowed by a section of engine design and efficiency calculations.

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自由活塞斯特林发动机发电机

自由活塞斯特林发动机(FPSEs)由于其高效率、高可靠性和操作简单、安静等优点，近年来作为一种有前途的能量转换技术而受到人们的关注。FPSE是一个真正的封闭循环系统，它利用内部压力的变化来驱动动力活塞，动力活塞连接到线性交流发电机的往复磁铁上进行能量转换。在FPSE中，由于密封没有接触或磨损，不需要手动联动和使用间隙密封，从而提高了系统的可靠性和使用寿命。这些理想的特性加上FPSE的燃料独立性使其成为远程发电应用的理想选择，特别是在维护高度关注的地方，如NASA深空任务、太阳能发电机和热电联产系统。本章介绍了FPSE以及对潜在热力学和斯特林循环分析的简要回顾。将讨论斯特林发动机的一般工程分析和数值模拟方法，然后是发动机设计和效率计算的一部分。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Energy Conversion - Current Technologies and Future Trends

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