1) top heater
末级[高压]加热器
2) last stage high pressure heater
末级高加
1.
The effects of last stage high pressure heater rejection on unit economy are calculated using variable condition method.
文章采用变工况方法对末级高加解列对机组经济性的影响进行了计算,并与等效热降的方法进行了比较。
3) high pressure heater
高压加热器
1.
Analysis and preventive countermeasures for the leakage cause of high pressure heater of home-made 300MW turbine;
国产300MW汽轮机高压加热器泄漏原因分析及预防措施
2.
Analysis and countermeasures on the high pressure heater leakage in 300MW units;
300MW机组高压加热器泄漏原因分析及预防措施
3.
Structural design of 142 MW whorl tube high pressure heater;
142MW大型螺管高压加热器结构设计
4) high-pressure heater
高压加热器
1.
Fault diagnosis of high-pressure heater system based on radial basis probabilistic neural network;
基于径向基概率神经网络的高压加热器故障诊断
2.
According to the reality that it has no bore for in and can not dismantle,by making reference the relative standard and rule,this article puts forward the way and technics of repairing to leakage at high-pressure heater main body in power plant.
结合高压加热器无人孔不能拆卸的实际情况,参考相关的规程、标准,提出了电站高压加热器筒体损伤泄漏部位的修复方法和工艺。
3.
two times without temperature rise of the feed-water,occurred in operation of the externally arranged steam cooler for high-pressure heater of unit no.
分析了蒲城发电有限公司3号机组高压加热器外置式蒸汽冷却器运行中曾2次出现给水无温升的异常现象。
5) HP heater
高压加热器
1.
Design and Application of RUNback for large units at withdrawing of HP heaters;
大型机组高压加热器撤出的RUNBACK性能设计与应用
2.
Thermal economy research on the stopping of HP heaters in thermal power plant;
热电厂切除高压加热器运行的热经济性研究
3.
Analysis and treatment of drainage pipe abrasion inHP heater of Meixian Power Plant;
梅县发电厂高压加热器疏水管磨损原因分析及处理对策
6) final superheater
末级过热器
1.
Cause analysis on the burst and leakage at final superheater of 600 MW supercritical boiler;
600MW超临界锅炉末级过热器爆漏原因分析
2.
Analysis of over-temperature on final superheater tube wall of Unit 2 boiler in Zhuhai Power Station;
珠海电厂2号炉末级过热器管壁超温问题分析
3.
This paper analyzes the tube failure that happened at row 41 of final superheater twice during the early startup process in 300 MW subcritical boiler.
对300MW亚临界锅炉启动初期发生的末级过热器爆管事件进行分析,排除长期超温过热和水塞过热的可能性后,得出氧化皮脱落堵塞过热是爆管的主要原因,并给出防范的建议。
补充资料:高压线走廊(高压架空线路走廊)
在计算导线最大风偏和安全距离情况下,35kV及以上高压架空电力线路两边导线向外侧延伸一定距离所形成的两条平行线之间的专用通道。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条