期刊文献+

高背压供热机组供热温度特性与[火用]分析 被引量:14

Heating temperature characteristics and exergy analysis for high back pressure heating unit
下载PDF
导出
摘要 高背压供热具有大幅减少冷源损失及扩大机组供热能力的优势,而针对高背压供热机组供热温度特性及[火用]分析未见报道。本文采用自主研发的热力系统集成优化软件,搭建热力系统仿真模型,建立了热电联产机组[火用]分析模型,研究了不同供热期高背压机组供热温度特性。为了避免低供热负荷对机组供电负荷的限制,提出了高背压凝汽器供热-新风加热方法。结果表明:采用高背压凝汽器供热-新风加热方法,解决了低供热负荷对机组供电负荷的限制,实现了供热初末期热电解耦;相同主蒸汽流量工况,热电厂总[火用]效率大小顺序为严寒期>寒冷期>次寒期。本文研究结果可为热电联产运行优化提供借鉴。 High back pressure heating technology is widely used in heating retrofitting of large-scale cogeneration units because of its advantages of greatly reducing the loss of cold source and expanding the heating capacity of the units.However,there is no report on heating temperature characteristics and exergy analysis of the high back pressure heating unit.By using the self-developed thermal power integration scheme(TPIS)software,this paper builds up the simulation model of thermal power system and establishes the exergy analysis model of cogeneration units to study he heating temperature characteristics of high back pressure units in different heating supply periods.In order to avoid the restriction of low heating load on the unit power supply load,a method of high back pressure condenser heating-fresh air heating is proposed.The results show that,adopting the high back pressure condenser heating-fresh air heating method can break the limitation of low heating load on the unit supply power load and realize thermo-electric decoupling at the early and last period of heating.Under conditions with the same main steam flow,the total exergy efficiency of thermal power plant is ranked as follows:big-freeze period>cold period>secondary cold period.The result provides a reference for operation optimization of the cogeneration.
作者 梁占伟 张磊 徐亚涛 刘辉 金铁铮 张东青 张俊杰 王顺森 LIANG Zhanwei;ZHANG Lei;XU Yatao;LIU Hui;JIN Tiezheng;ZHANG Dongqing;ZHANG Junjie;WANG Shunsen(Shenhua Guohua(Beijing)Electric Power Research Institute Co.,Ltd.,Beijing 100024,China;School of Energy and Power Engmeering,Xi'an Jiaotong University Xi'an 710049,China)
出处 《热力发电》 CAS 北大核心 2020年第1期17-25,共9页 Thermal Power Generation
基金 国家重点研发计划项目(2017YFB0603900,2017YFB0603904)。
关键词 湿冷机组 高背压 热电解耦 [火用]分析 供热温度特性 热电联产 能量梯级利用 wet cooling unit high back pressure thermo-electric decoupling exergy analysis heating temperature characteristics co-generation energy cascade utilization
  • 相关文献

参考文献19

二级参考文献173

共引文献427

同被引文献169

引证文献14

二级引证文献37

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部