Modeling and Simulation of a Stirling-Engine-based Generator Connected to the Grid

Augusto Hayashi, M. Brito, J. Onofre, Lourenço MatakasJunior, R. Cordero, Luigi GalottoJunior
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Abstract

The Stiling engine converts heat in mechanical energy based on the Stirling cycle, which is the most similar to the Carnot cycle. For that reason, Stirling engine is used in cogeneration process to get electricity from different heat sources. However, few studies were done that integrates the thermodynamic model of the Stirling engine together with the required power electronic systems to connect an electrical generator with a power grid. This paper shows the modeling of the Stirling engine, a DC generator coupled to this engine, the DC-DC converter and the inverter required for connecting the cogeneration system based on Stirling engine to the grid. The synchronization algorithm to connect the inverter to the grid is also explained. The proposed model allows calculating the grid current and voltage, the active and reactive power generated using a Stirling engine as cogeneration system, according to its mechanical and thermodynamic parameters. The Stirling-generator system operates with practically unitary power factor. The aim of this work is to motivate the analysis and use of the Stirling engine in cogeneration.
斯特林发动机发电机并网的建模与仿真
斯特林热机将热能转化为机械能的基础上的斯特林循环,这是最类似的卡诺循环。因此,斯特林发动机被用于热电联产过程,从不同的热源获得电力。然而,很少有研究将斯特林发动机的热力学模型与所需的电力电子系统结合起来,将发电机与电网连接起来。本文给出了斯特林发动机的建模、与斯特林发动机耦合的直流发电机、基于斯特林发动机的热电联产系统的DC-DC变换器和并网所需的逆变器。并对逆变器并网的同步算法进行了说明。所提出的模型可以根据斯特林发动机的机械和热力学参数计算电网电流和电压,以及斯特林发动机作为热电联产系统产生的有功和无功功率。斯特林-发电机系统实际上以单一的功率因数运行。这项工作的目的是激励分析和使用斯特林发动机在热电联产。
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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