1) exhaust hood
排汽通道
1.
The thesis expresses velocity distribution of the exit of the exhaust hood of 300MW turbine effect on temperature difference of the condenser.
介绍了300MW汽轮机组排汽通道出口速度分布对凝汽器传热端差的影响。
2.
The velocity distribution of the exhaust hood of 300 MW introduced turbine is not uniform.
引进型 30 0MW汽轮机排汽通道内的流场极不均匀。
2) exhaust passage
排汽通道
1.
Directing at the influence of the steam velocity field at the condenser inlet on its performance and the turbine’s exhaust pressure, research on aerodynamic property of the whole exhaust passage and velocity field at its outlet (i.
针对凝汽器入口蒸汽流场对凝汽器性能和汽轮机排汽压力的影响,以国产引进型300MW 机组为例,利用数值模拟技术和模型试验相结合的办法对整个排汽通道的气动性能和出口(亦即凝汽器入口)流场进行模拟试验研究。
3) exhaust steam passage optimization
排汽通道优化
4) vent duct
排汽道,通风道,溢流道
5) exhaust pipe
排汽管道
1.
The mathematical model for two-phase flow and heat transfer of wet steam in exhaust pipe for a 600 MW power generating unit with direct air cooling is established.
建立了600 MW发电机组直接空冷排汽管道内湿蒸汽两相流动和传热的数学模型。
2.
In Hanfeng Power Plant the deformation caused displacement of a 660 MW set s BFPT exhaust pipe effected a gland clearance change of the auxiliary turbine.
河北邯峰电厂660 MW机组小汽轮机排汽管道产生65 mm位移,促使小汽轮机汽封间隙变化,影响小汽轮机试运行。
6) exhaust duct
排汽管道
1.
The three dimensional flowing field of steam in direct air cooling exhaust ducts was simulated via computational fluid dynamics(CFD) software called fluent for Datong 600MW power generating unit.
利用计算流体力学软件FLUENT,对大同600 MW发电机组直接空冷三维排汽管道内的水蒸汽流场进行了数值模拟。
2.
The paper reports on the calculation of the reaction forces of the BFPT s exhaust duct under 12 operating condition including different temperatures, pressures and earth quake intensitics, simultaneously including of a strength and stiffness analysis of the duct s structure.
对给水泵汽轮机排汽管道在不同温度、压力及地震共12种工况下,对于汽轮机管口的推力进行校核计算,并对管道结构进行强度及刚度分析。
3.
The optimal design for exhaust ducting mode and internal structure in direct cooling exhaust duct system is very important for us.
排汽管道布置形式和内部结构是直接空冷排汽系统优化设计的基础,直接影响各蒸汽分配管内的流动阻力和流量分配。
补充资料:阻汽排水阀
分子式:
CAS号:
性质:又称疏水器,阻汽排水阀,冷凝水排除器。自动排放冷凝水并阻止蒸汽泄漏的阀门。型式较多,根据操作原理可分为两种:(1)自动排水式。借蒸汽本身的压力将冷凝水排出,例如浮球式疏水阀、浮杯式疏水阀、孔板式疏水阀等。(2)压出式疏水阀。借外加蒸汽压力将冷凝水排出。根据操作方法分为两种:(1)连续式疏水阀,例如浮球式疏水阀、孔板式疏水阀、压出式疏水阀。(2)间歇式疏水阀,例如浮杯式疏水阀。
CAS号:
性质:又称疏水器,阻汽排水阀,冷凝水排除器。自动排放冷凝水并阻止蒸汽泄漏的阀门。型式较多,根据操作原理可分为两种:(1)自动排水式。借蒸汽本身的压力将冷凝水排出,例如浮球式疏水阀、浮杯式疏水阀、孔板式疏水阀等。(2)压出式疏水阀。借外加蒸汽压力将冷凝水排出。根据操作方法分为两种:(1)连续式疏水阀,例如浮球式疏水阀、孔板式疏水阀、压出式疏水阀。(2)间歇式疏水阀,例如浮杯式疏水阀。
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