摘要
核电厂二回路主给水系统是保证蒸汽发生器冷却的重要系统,同时也是水锤频发的管段,研究水锤对主给水系统的规律对于系统稳定运行具有重要意义。文章以主给水系统作为研究对象,通过Flowmaster软件的瞬态计算功能,建立给水泵、控制阀门等边界条件下的数学模型,计算阀门、泵关闭时产生的水锤压力,并且导出压力等参数的瞬时变化解。结论验证了Flowmaster瞬态计算功能计算水锤的可行性,结合工程实例说明,增加给水控制阀、给水泵关闭时间能有效控制水锤,改变给水泵、给水控制阀关闭触发信号间隔能缓解水力冲击,以及管径等因素对水锤的影响,对于实际工程中的设计和系统优化具有一定指导作用。
The main feedwater system of a nuclear power plant is an important part in ensuring the cooling of the steam generator. Moreover, it is the main pipe section where water hammers frequently occur. Studing the regular patterns of water hammers to the main feedwater system is significant to the stable operation of the system. The paper focuses on the study of water hammers through Flowmaster’s transient calculating function to establish a mathematical model with boundary conditions such as a feedwater pump, control valves, etc.; calculation of the water hammers pressure when feedwater pumps and control valves shut down; exporting the instantaneous change in solution of pressure. Combined with engineering practical examples, the conclusions verify the viability of calculating the water hammers pressure through Flowmaster’s transient function, increasing the periods of closure of control valves and feedwater pumps control water hammers effectively, changing the intervals of closing signals to feedwater pumps and control valves to relieve hydraulic impact. This could be a guideline for practical engineering design and system optimization.
出处
《原子能科学技术》
EI
CAS
CSCD
北大核心
2010年第B09期192-197,共6页
Atomic Energy Science and Technology
关键词
水锤
主给水系统
核电厂
仿真
water hammers
main feedwater system
nuclear power plant
simulation
