摘要
本文主要是利用PHOENICS軟體,以數值模擬的方法,探討氣體噴流及兩相 噴流衝擊在平板目標物上的壓力分佈並分析噴流的流場變化。對於氣體噴 流方面,本文主要著重於探討因噴嘴出口前停滯壓力不同所形成的不同程 度之不足膨脹(under expansion )對噴流的軸向中心線壓力與速度的影 響。至於兩相噴流方面,本文主要是針對核能電廠中高溫高壓狀況下的管 路系統斷裂時,所形成兩相(水-水蒸氣)噴流的流場變化,及噴流衝擊 在平面目標物上的負荷。為了更能充份符合核能電廠中各種不同的實際情 況,本文將設定重要參數的變化範圍,如噴流噴出前的停滯點熱力狀態( 壓力、溫度),及噴流出口位置到目標物的衝擊距離等。噴流停滯點的溫 度變化範圍將區分為飽和狀態或是過熱蒸氣,以期能確切了解噴嘴出口前 的熱力狀態對噴流的流場變化及目標物上的衝擊負荷的影響。
並列摘要
Traditionally , the calculation and prediction of jet impin- gement load during a high - energy line break is one of very important tasks for the design and safety analysis of a nuclear power plant . This thesis is aimed to compute the jet geometry , jet force and impingement load on targets during a postulated high energy line break (HELB) accident. The jet characteristics ( such as jet pressure and velocity distribution over the flow field ) will also be investigated. One of the very popular computational fluid dynamics (CFD) Code-PHOENICS will be utilized in this study .
延伸閱讀
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