核技术
覈技術
핵기술
Nuclear Techniques
2015年
9期
090602-1-090602-7
,共1页
梅勇%王驰%宋印玺%应秉斌%张波涛%龚圣捷%顾汉洋
梅勇%王馳%宋印璽%應秉斌%張波濤%龔聖捷%顧漢洋
매용%왕치%송인새%응병빈%장파도%공골첩%고한양
蒸汽发生器%疏水槽%液位高度%MATLAB 图像处理
蒸汽髮生器%疏水槽%液位高度%MATLAB 圖像處理
증기발생기%소수조%액위고도%MATLAB 도상처리
Steam generator%Drain tank%Liquid depth%MATLAB digital image processing
采用常温常压的空气和水,通过实验模拟研究了核电站 CAP1400机组蒸汽发生器中疏水槽的疏水特性。实验中设计了不同倾角的疏水槽底板(3.5°?5°),并设置了不同的疏水入水孔数(36?136个),通过控制进入疏水槽的疏水流量(13.8?138.1 m3·h?1),研究不同底板倾角以及不同疏水入水孔数对疏水槽的疏水能力的影响。采用摄像仪对不同工况下疏水槽的水位进行记录,通过 MATLAB 图像处理的方法对疏水槽水位进行识别,提取出水位高度数据用于实验分析。实验结果表明,疏水槽中最大液位高度随流量呈线性升高;疏水槽入水孔数量对于疏水槽内最大液位高度的影响不明显;疏水槽底面倾角对于疏水能力的影响较小。
採用常溫常壓的空氣和水,通過實驗模擬研究瞭覈電站 CAP1400機組蒸汽髮生器中疏水槽的疏水特性。實驗中設計瞭不同傾角的疏水槽底闆(3.5°?5°),併設置瞭不同的疏水入水孔數(36?136箇),通過控製進入疏水槽的疏水流量(13.8?138.1 m3·h?1),研究不同底闆傾角以及不同疏水入水孔數對疏水槽的疏水能力的影響。採用攝像儀對不同工況下疏水槽的水位進行記錄,通過 MATLAB 圖像處理的方法對疏水槽水位進行識彆,提取齣水位高度數據用于實驗分析。實驗結果錶明,疏水槽中最大液位高度隨流量呈線性升高;疏水槽入水孔數量對于疏水槽內最大液位高度的影響不明顯;疏水槽底麵傾角對于疏水能力的影響較小。
채용상온상압적공기화수,통과실험모의연구료핵전참 CAP1400궤조증기발생기중소수조적소수특성。실험중설계료불동경각적소수조저판(3.5°?5°),병설치료불동적소수입수공수(36?136개),통과공제진입소수조적소수류량(13.8?138.1 m3·h?1),연구불동저판경각이급불동소수입수공수대소수조적소수능력적영향。채용섭상의대불동공황하소수조적수위진행기록,통과 MATLAB 도상처리적방법대소수조수위진행식별,제취출수위고도수거용우실험분석。실험결과표명,소수조중최대액위고도수류량정선성승고;소수조입수공수량대우소수조내최대액위고도적영향불명현;소수조저면경각대우소수능력적영향교소。
Background: In engineering application of steam generator (SG) for nuclear power plant (NPP), two limitations are imposed on the design of water tanks. One is that the water collected in the water tank cannot spill over to avoid the entrainment of water from the water tank. The other is that the size of the devices used in the SG is limited by the safety consideration and costs. Purpose: This study aims at the drainage performance of drain device in steam generator of CAP1400 to provide reliable data for the design of a drain device. Methods: The drainage performance of drain device in steam generator of CAP1400 was simulated through an experimental method with water and air under ambient temperature and pressure. A video camera is used to record liquid level at certain water flow rates range of 13.8?138.1 m3·h?1, and the recorded video images are processed by MATLAB program. Results:The experimental results show that the maximum water depth level in drain tank linearly increases with the water flow rate while the number of water entrance holes has no obvious effect on the drainage performance of drain device and the value of bottom surface slope angle has a little influence on it. Conclusion: Using a slope bottom plate can help draining water to some extent and the number of orifices has little effect on the liquid level of drain water tank.