重型燃气轮机联合循环机组三压再热余热锅炉动态建模及运行规律研究  

作　　者：王一丰 翟春华[3] 黄庆 肖俊峰 牛晨晖[4] 苏新民 焦道顺 潘赫男 王乾远 奚新国 袁源 阴海强 苏通 曹殿尧 刘加湗 章文茜 李军 WANG Yifeng;ZHAI Chunhua;HUANG Qing;XIAO Junfeng;NIU Chenhui;SU Xinmin;JIAO Daoshun;PAN Henan;WANG Qianyuan;XI Xinguo;YUAN Yuan;YIN Haiqiang;SU Tong;CAO Dianyao;LIU Jiafeng;ZHANG Wenxi;LI Jun(Xi’an Thermal Power Research Institute Co.,Ltd.,Xi’an 710054,China;School of Energy and Power Engineering,Xi’an Jiaotong University,Xi’an 710049,China;Huaneng Nanjing Gas Turbine Power Plant Co.,Ltd.,Nanjing 210034,China;Huanneng Jiangsu Energy Development Co.,Ltd.,Nanjing 210015,China)

机构地区：[1]西安热工研究院有限公司,陕西西安710054 [2]西安交通大学能源与动力工程学院,陕西西安710049 [3]华能南京燃机发电有限公司,江苏南京210034 [4]华能国际电力江苏能源开发有限公司,江苏南京210015

出　　处：《热力发电》2024年第11期89-100,共12页Thermal Power Generation

基　　金：中国华能集团有限公司总部科技项目(HNKJ20-H42)。

摘　　要：针对燃气轮机联合循环机组三压再热余热锅炉的动态运行特性,使用Modelica开源编程语言搭建了余热锅炉仿真模型,并与电厂实际调峰过程运行数据及Thermoflow商业软件仿真结果进行对比和验证。在实际运行工况下,从满负荷降至低负荷后稳态运行、再从低负荷升至满负荷、机组停机和边界参数扰动的动态过程中,所建模型均能较为准确地预测余热锅炉主要参数的动态响应规律。随着机组负荷从320 MW降低至280 MW,汽轮机功率从124.0 MW降至111.5 MW;高压主蒸汽流量从70.12 kg/s减至63.62 kg/s;高压主蒸汽压力从8250 k Pa降至7612 k Pa;余热锅炉入口烟气参数在约300 s的时间内随机组负荷变化,但是余热锅炉蒸汽参数需要约600s完成动态响应达到低负荷下的稳态,说明余热锅炉蒸汽参数相对于燃气轮机排烟参数随时间变化有一定滞后。在机组停机的动态过程中,汽轮机功率从130.4MW下降到5.4MW,余热锅炉高压主蒸汽温度从600.1℃降低到224.5℃,高压主蒸汽流量从76.1 kg/s减小到15.3 kg/s。Against the dynamic operation characteristics of three-pressure reheat waste heat recovery steam generator(HRSG)of gas turbine combined cycle(GTCC)unit,the Modelica open-source programming language is used to build the simulation model for the HRSG,and the simulation results are compared with the actual operation data during peak load regulation process of the power plant.Under actual operating conditions,the established model can accurately predict the dynamic response laws of main parameters of the HRSG in the dynamic process of steady-state operation after the load drops from full load to low load,then increases from low load to full load,as well as unit shutdown and boundary parameter disturbance.When the unit load decreases from 320 MW to 280 MW,the power of the steam turbine decreases from 124.0 MW to 111.5 MW.The high pressure main steam flow rate decreases from 70.12 kg/s to 63.62 kg/s,and the high pressure main steam pressure decreases from 8250 kPa to 7612 kPa.The flue gas parameters at inlet of the HRSG change in about 300 s with the decrease of the unit load,while the steam parameters of the HRSG need about 600 s to complete dynamic response and reach steady state at low load,indicating there is a certain lag in steam parameters of the HRSG compared to the change of gas turbine exhaust gas parameters over time.In the dynamic process the unit shut down,the power of the steam turbine decreases from 130.4 MW to 5.4 MW,the high pressure main steam temperature of the HRSG decreases from 600.1℃to 224.5℃,and the high pressure main steam flow rate reduces from 76.1 kg/s to 15.3 kg/s.

关 键 词：联合循环发电厂 余热锅炉 调峰 变负荷 动态建模 

分 类 号：TM611.3[电气工程—电力系统及自动化]