摘要在环境日益恶化、能源逐渐稀少的今天,燃料电池作为一种新兴能源,为我们提供了一种新的发电方式,在电力和能源方面具有里程碑式的意义。拥有稳定性佳、运行温度低、功率密度高、响应快等特点,质子膜燃料电池在很多领域得到了广泛应用。在本文中,叙述了燃料电池PEMFC的工作原理,阐述了分数阶微积分的原理和特点,查阅资料,根据公式建立了PEMFC电特性和温度特性的分数阶动态模型和稳态模型;通过MATLAB的Simulink仿真表明:和传统的整数阶PID控制器相比,分数阶PID控制器的性能更佳,能够更多地优化系统性能。28690
关键词: PEMFC 分数阶微积分 建模 MATLAB
毕业论文设计说明书外文摘要
Title Study on dynamic characteristics of fractional
order PID controller based on PEMFC
Abstract
Energy shortages and environmental pollution has become one of the most important
challenges all over the world. As a power generation method, fuel cell is treated to be a revolutionary achievement in the field of electrical energy, because it provides a new solution for energy supply. This thesis aims to analyze the proton exchange membrane fuel cell working principle and running characteristic, establishes the dynamic model which is based on the correctness of the analysis of experimental results. Firstly, learning PID controller principle, master the fractional basic theoretical knowledge, understand the difference between fractional order controller and integer order controller. And grasp the skills of combining the controller together with the controlled object, so that the fuel cell can work under the best condition. Finally, setting up the model of the system under the environment of MATLAB and simulating results on the basis of the controller parameters on condition of the optimal performance of the fuel cell.
Keywords PEMFC Modeling MATLAB
目 次
1 引言 1
1.1 研究背景及意义 1
1.2 PEMFC研究现状及发展 1
1.3 分数阶PID的研究现状 1
1.4 本文主要研究内容 2
2 分数阶微积分 3
2.1 分数阶微积分定义 3
2.2 分数阶控制系统描述 5
2.3 分数阶控制系统分析 6
2.3.1 时域分析 6
2.3.2 频域分析 7
2.3.3 稳态误差 7
2.3.4 稳定性分析 7
2.4 分数阶 控制器 8
2.4.1 分数阶 控制器简介 8
2.5 本章小结 9
3 PEMFC电特性建模 10
3.1 电堆性能特点 10
3.2 PEMFC的电化学模型 10
3.2.1 热力学电动势 11
3.2.2 极化电压 12
3.3 PEMFC电特性模型的参数辨识 15
3.4 PEMFC电特性模型的MATLAB仿真 16
3.4.1 模型搭建 16
3.4.2 仿真结果 18
3.5 本章小结 19
4 PEMFC的温度特性建模 20
4.1 温度模型的分析 20
4.1.1 产生热量模型 20
4.1.2 散失热量模型 21
4.2 PEMFC温度特性模型的MATLAB仿真 21
4.2.1 模型搭建 21 MATLAB基于分数阶PID控制器的PEMFC动态特性研究:http://www.751com.cn/zidonghua/lunwen_23630.html