文档介绍:基于MATLAB的过热汽温控制的仿真与设计
摘要
随着我国电力工业的迅速发展,越来越多的高参数大容量机组陆续投产。从发展趋势看, 600MW 及以上等级的火电机组已成为大电网的主力机组。同时大容量机组的不断增加和电网调度自动化程度的日益提高,对火电厂机组的控制品质提出了更高的要求。过热汽温度是锅炉运行中的主要参数,它的高低直接影响锅炉安全稳定运行。锅炉过热汽温控制有非线性和时变性。其大延时和大惯性的特点使其一直以来都成为火电厂自动控制的难点。
本次毕业设计,针对火电厂锅炉过热汽温控制系统具有大迟延、时变等特点,常规控制难以取得满意的控制效果,通过采用先进的控制策略,在MATLAB环境下进行仿真实验,研究过热汽温控制系统的控制性能。
关键字:过热器,分段控制,串级控制,过热汽温,控制策略
Steam temperature cascade control sub-system performance analysis and simulation
Abstract
With China's power industry developing rapidly, more and more large-capacity high-parameter units have put into production.. From the development trend, above 600 MW unit will e a main unit of the power grids in the future. With the increasing of the large-capacity unit and the increasing degree of automation of the scheduling grid, it is a higher demand to the quality control of the thermal power plant unit. Supercritical generating units is the development of large-capacity generating units in China will also e the main force units. The main steam temperature is the main parameters in the boiler operation, which affect the safe and stable operation of boiler directly. The control of main steam temperature in the boiler is nonlinear and time variability. It is very difficult to control for the large delay and the inertia of its characteristics.
In this paper, we focused on the characteristics, composition, and the principles analysis of main steam temperature control system and propose a control strategy that fits the large delay control system. Research superheated steam temperature control system control performance through the use of advanced control strategy and MATLAB simulation experiment,
Keywords: Superheater,Segment control,cascade control,superheated steam temperature,control strategy
目录
摘要 I
Abstract II
1绪论 1
1
1
2
3
3
2 过热汽温控制系统分析 4
4
4
6
2. 7
7