TY - GEN
T1 - Specificity of flow structure in a dual elbow and its visualization by PIV measurement
AU - Yoshida, Kazuhiro
AU - Kazuhisa, Yuki
AU - Hashizume, Hidetoshi
AU - Toda, Saburo
PY - 2008
Y1 - 2008
N2 - A large number of pipe failures caused by wall thinning have been reported in nuclear power plants, some of which occur in a dual elbow or the vicinity of it. These pipe failures could be influenced by complex flow induced in the elbow. This study, therefore, aims at predicting the whole flow structure in the dual elbow as the first step by taking a secondary flow after the elbow by Ply measurement. A test section consists of two elbows that are 2-dimentionally connected with/without a straight pipe. They are made of acrylic resin. The diameter of thc elbow is 56mm and the curvature radius ratio is 1.5. Reynolds number in this experiment is 4x I It is confirmed that the flow structure in the dual elbow has specificity depending on the inlet flow condition to the elbow and that the secondary flow itself has swirling motion in a streamwise direction. The dual elbow seems to generate more complex and unstable flow field even when the flow field at the inlet of the elbow slightly changes from a fully developed flow. However, there is a strong possibility that putting a straight pipe between the two elbows makes it ease the occurrence of the complex flow field.
AB - A large number of pipe failures caused by wall thinning have been reported in nuclear power plants, some of which occur in a dual elbow or the vicinity of it. These pipe failures could be influenced by complex flow induced in the elbow. This study, therefore, aims at predicting the whole flow structure in the dual elbow as the first step by taking a secondary flow after the elbow by Ply measurement. A test section consists of two elbows that are 2-dimentionally connected with/without a straight pipe. They are made of acrylic resin. The diameter of thc elbow is 56mm and the curvature radius ratio is 1.5. Reynolds number in this experiment is 4x I It is confirmed that the flow structure in the dual elbow has specificity depending on the inlet flow condition to the elbow and that the secondary flow itself has swirling motion in a streamwise direction. The dual elbow seems to generate more complex and unstable flow field even when the flow field at the inlet of the elbow slightly changes from a fully developed flow. However, there is a strong possibility that putting a straight pipe between the two elbows makes it ease the occurrence of the complex flow field.
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U2 - 10.1115/ICONE16-48231
DO - 10.1115/ICONE16-48231
M3 - Conference contribution
AN - SCOPUS:70349140104
SN - 0791848159
SN - 9780791848159
T3 - International Conference on Nuclear Engineering, Proceedings, ICONE
SP - 293
EP - 299
BT - 2008 Proceedings of the 16th International Conference on Nuclear Engineering, ICONE16
T2 - 16th International Conference on Nuclear Engineering, ICONE16 2008
Y2 - 11 May 2008 through 15 May 2008
ER -