发布时间 : 星期五 文章火电厂脱硫技术分析与研究毕业论文更新完毕开始阅读
毕 业 设 计(论文)
题 目 火电厂脱硫技术分析与研究
系 别 专业班级 学生姓名 指导教师
动力工程系 热能08K4班
二○一二年六月
火电厂脱硫技术
摘要
机组协调控制系统由机组负荷管理中心、锅炉主控制器、汽机主控制器三大部分组成。统一协调锅炉、汽机及相关辅机的运行,快速、准确、稳定地响应中调或运行人员的负荷指令,使机组生产所需的电力。
机组协调控制系统由机组负荷管理中心、锅炉主控制器、汽机主控制器三大部分组成。统一协调锅炉、汽机及相关辅机的运行,快速、准确、稳定地响应中调或运行人员的负荷指令,使机组生产所需的电力。
关键字:超临界;协调控制系统;单元机组;负荷指令处理;控制功能单元
I
ANALYSIS of IMPROVEMENT
SUPERCRITICAL
COORDINATED CONTROL SYSTEM
Abstract
Coordinated control system by the unit load management center, the boiler master controller, turbine master controller has three major components. Coordinate the boiler, steam turbine and related auxiliary equipment operation, fast, accurate and stable response in the transfer or the operating personnel of the load instruction, so that the power needed for the production unit.
In order to rapidly meet the network's FM requirements, make full use of CCS unit coordinated control system to improve the load adaptive, better coordination, to improve security. Control system, a large adjustment range, not only in the normal run time to achieve load automatically adjust, but also in the unit exception, to the cooperation of the protection system, automatic adjustment unit of the load size, and adjust the automatic mode switch so that the safety of and the stability of the raise.
Keywords: Improvement Supercritical; coordinated control system; Unit; load instruction
processing; control unit
II
目 录
摘要 .................................................................................................................................................. I Abstract .......................................................................................................................................... II 1前言 .............................................................................................................................................. 1 1.1本课题发展背景及意义 ........................................................................................................... 1 1.1.1协调控制系统利用的背景 .................................................................................................... 1 1.1.2协调控制系统应用的意义 .................................................................................................... 1 1.2协调控制系统研究现状 ........................................................................................................... 1 1.2.1传统协调控制的研究 ............................................................................................................ 1 1.2.2现代控制理论的应用 ............................................................................................................ 1 1.3 本课题主要研究内容 .............................................................................................................. 1 2单元机组协调控制系统概述 ...................................................................................................... 2 2.1 单元制机组负荷控制的特点 .................................................................................................. 2 2.2协调控制系统及其任务 ........................................................................................................... 2 2.3单元机组负荷控制系统的组成 ............................................................................................... 2 3单元组主控系统 .......................................................................................................................... 4 3.1 负荷指令处理回路 .................................................................................................................. 4 3.1.1负荷指令处理回路的主要功能 ............................................................................................ 4 3.1.2系统分析 .............................................................................................. 错误!未定义书签。 3.2机炉主控制器 ........................................................................................................................... 5 3.2.1机炉主控制器的主要功能 .................................................................................................... 5 3.2.2系统分析 ................................................................................................................................ 5 3.2.3主要控制逻辑 ........................................................................................................................ 7 4燃料控制系统 .............................................................................................................................. 8 4.1氧量校正及风煤交叉限制回路 ............................................................................................... 8 4.2燃料量控制系统 ....................................................................................................................... 8 4.3磨煤机风量及风温控制系统 ................................................................. 错误!未定义书签。 4.4 一次风压力控制系统 ............................................................................ 错误!未定义书签。 4.5总风量控制系统 ..................................................................................... 错误!未定义书签。 4.6锅炉炉膛压力控制系统 ......................................................................... 错误!未定义书签。 5给水控制控系统 ........................................................................................ 错误!未定义书签。 5.1概述 ......................................................................................................... 错误!未定义书签。 5.2给水调节对象的动态特性 ..................................................................... 错误!未定义书签。 5.2.1给水量扰动下的水位动态特性 .......................................................... 错误!未定义书签。 5.2.2汽轮机负荷扰动下的水位动态特性 .................................................. 错误!未定义书签。