原子能科学技术
原子能科學技術
원자능과학기술
ATOMIC ENERGY SCIENCE AND TECHNOLOGY
2014年
4期
610-616
,共7页
王成龙%丛腾龙%王泽勇%田文喜%秋穗正%苏光辉%安洪振
王成龍%叢騰龍%王澤勇%田文喜%鞦穗正%囌光輝%安洪振
왕성룡%총등룡%왕택용%전문희%추수정%소광휘%안홍진
蒸汽发生器%过冷沸腾%RPI壁面沸腾模型%梅花孔板
蒸汽髮生器%過冷沸騰%RPI壁麵沸騰模型%梅花孔闆
증기발생기%과랭비등%RPI벽면비등모형%매화공판
steam generator%subcooled flow boiling%RPI wall boiling model%orifice plate
采用两流体欧拉数学模型,结合气相和液相之间的界面传热、传质和动量交换封闭模型以及 RPI壁面沸腾模型,利用ANSYS CFX 12.0对蒸汽发生器局部传热管束二次侧的过冷沸腾进行数值研究。数值研究结果与单管内过冷沸腾实验数据对比验证符合良好。结果表明,采用壁面沸腾模型能准确预测沸腾起始点的位置,同时梅花孔板的存在对二次侧流动换热特性影响显著。
採用兩流體歐拉數學模型,結閤氣相和液相之間的界麵傳熱、傳質和動量交換封閉模型以及 RPI壁麵沸騰模型,利用ANSYS CFX 12.0對蒸汽髮生器跼部傳熱管束二次側的過冷沸騰進行數值研究。數值研究結果與單管內過冷沸騰實驗數據對比驗證符閤良好。結果錶明,採用壁麵沸騰模型能準確預測沸騰起始點的位置,同時梅花孔闆的存在對二次側流動換熱特性影響顯著。
채용량류체구랍수학모형,결합기상화액상지간적계면전열、전질화동량교환봉폐모형이급 RPI벽면비등모형,이용ANSYS CFX 12.0대증기발생기국부전열관속이차측적과랭비등진행수치연구。수치연구결과여단관내과랭비등실험수거대비험증부합량호。결과표명,채용벽면비등모형능준학예측비등기시점적위치,동시매화공판적존재대이차측류동환열특성영향현저。
Two fluid model combing with inter-phase heat and mass transfer model , inter-phase momentum transfer model ,and RPI wall boiling model was applied to solve the local flow and heat transfer of subcooled flow boiling in the secondary side of SG tubes by using commercial CFD code ANSYS CFX 12.0 . The numerical calculation results were validated by experimental data and calculation results .The results show that adopting RPI wall boiling model can predict the onset of subcooled flow boiling accurately ,meanw hile the existence of orifice plate has a great effect on the flow and heat transfer characteristics of the secondary side .
