承压热冲击下AP1000压力容器直接安注接管温度瞬态初步研究
승압열충격하AP1000압력용기직접안주접관온도순태초보연구
A Preliminary Study on Transient States of Temperature in AP1000 RPV DVI-Nozzle under PTS
  • 万方数据
    南华大学学报(自然科学版) 남화대학학보(자연과학판)
    JOURNAL OF NANHUA UNIVERSITY(SCIENCE AND TECHNOLOGY)
    2013年 3期 1-5 ,共5页

    秦勉%于涛%李志锋%吕莉%贾晓淳%谢金森%刘紫静

    진면%우도%리지봉%려리%가효순%사금삼%류자정

    AP1000%CFD%承压热冲击 AP1000%CFD%承壓熱遲擊
    AP1000%CFD%승압열충격
    AP1000%CFD%PTS
    AP1000先进反应堆采用了直接安注方式注入常温应急冷却水,导致反应堆压力容器( RPV)遭受严重的承压热冲击( PTS)。本文基于CFD程序ANSYS-CFX采用流固共轭传热方式,对不同工况下PRV直接安注接管( DVI-Nozzle )温度瞬态进行了数值模拟。计算结果表明:在不同工况下, DVI-Nozzle区域均经历较大幅度的温度阶跃,影响反应堆压力容器的安全性。
    AP1000선진반응퇴채용료직접안주방식주입상온응급냉각수,도치반응퇴압력용기( RPV)조수엄중적승압열충격( PTS)。본문기우CFD정서ANSYS-CFX채용류고공액전열방식,대불동공황하PRV직접안주접관( DVI-Nozzle )온도순태진행료수치모의。계산결과표명:재불동공황하, DVI-Nozzle구역균경력교대폭도적온도계약,영향반응퇴압력용기적안전성。
    The reactor pressure vessel ( RPV ) suffers from serious pressurized thermal shock ( PTS) which is caused by the cold safety injection fluid direct into RPV downcomer in AP1000. In this paper,the Transient States of Temperature of RPV direct vessel injec-tion nozzle( DVI-Nozzle) in AP1000 under the different operating conditions has been in-vestigated using computational fluid dynamics ( CFD ) code ANSYS-CFX. Results show that the DVI-Nozzle experiences a large step change in temperature in each operating con-dition which causes the strong effect on the safety of RPV.
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