原子能科学技术
原子能科學技術
원자능과학기술
ATOMIC ENERGY SCIENCE AND TECHNOLOGY
2015年
5期
836-841
,共6页
无窗靶%自由界面长度%可视化实验%模拟
無窗靶%自由界麵長度%可視化實驗%模擬
무창파%자유계면장도%가시화실험%모의
windowless target%free surface length%visualization experiment%simulation
自由界面形成和控制是加速器驱动的次临界系统(ADS )无窗靶研究的重要内容。本文通过水模拟实验,结合360°全尺度模拟计算,验证了自由界面的特征主要受入口速度和出口压力控制,得到了自由界面长度随入口速度增大而二次递减、随出口压力增大而线性递减的结论。对流场的结构和特征进行了研究,说明了漩涡区域对自由界面流动的影响。采用VOF界面追踪方法、大涡湍流模型(LES)以及PISO算法进行瞬态模拟计算,计算得到的自由界面流动和流场结果均与实验结果符合较好,表明计算模型和方法可用于液态重金属靶的流体力学计算。
自由界麵形成和控製是加速器驅動的次臨界繫統(ADS )無窗靶研究的重要內容。本文通過水模擬實驗,結閤360°全呎度模擬計算,驗證瞭自由界麵的特徵主要受入口速度和齣口壓力控製,得到瞭自由界麵長度隨入口速度增大而二次遞減、隨齣口壓力增大而線性遞減的結論。對流場的結構和特徵進行瞭研究,說明瞭漩渦區域對自由界麵流動的影響。採用VOF界麵追蹤方法、大渦湍流模型(LES)以及PISO算法進行瞬態模擬計算,計算得到的自由界麵流動和流場結果均與實驗結果符閤較好,錶明計算模型和方法可用于液態重金屬靶的流體力學計算。
자유계면형성화공제시가속기구동적차림계계통(ADS )무창파연구적중요내용。본문통과수모의실험,결합360°전척도모의계산,험증료자유계면적특정주요수입구속도화출구압력공제,득도료자유계면장도수입구속도증대이이차체감、수출구압력증대이선성체감적결론。대류장적결구화특정진행료연구,설명료선와구역대자유계면류동적영향。채용VOF계면추종방법、대와단류모형(LES)이급PISO산법진행순태모의계산,계산득도적자유계면류동화류장결과균여실험결과부합교호,표명계산모형화방법가용우액태중금속파적류체역학계산。
The formation and control of free surface are the most essential parts in the studies of windowless target in accelerator driven sub‐critical system (ADS ) . Water model experiments and 360° full scale three dimensional simulations were conducted . The experimental study demonstrates that the free surface is significantly affected by the inlet flow velocity and outlet pressure . The length of free surface decreases in the second order with the increase of inlet flow velocity ,while it decreases linearly with the outlet pressure .The structure and feature of flow field were investigated .The results show that the free surface is vulnerable to the vortex movement .Transient simulations were performed with volume of fluid (VOF) method ,large eddy simulation (LES) and the pressure implicit with splitting of operators (PISO ) algorithm . The simulation results agree qualitatively well with the experimental data related to both free surface flow and flow field .These simulation models and methods are proved to be applicable in the hydraulic simulations of liquid heavy metal target .