[1] Jones I S.Impulse response model of thermal striping for hollow cylindrical geometries[J]. Theoretical and applied fracture mechanics(S0167-8442), 2005, 43(1): 77-88. [2] Lejeail Y, Kasahara N.Thermal fatigue evaluation of cylinders and plates subjected to fluid temperature fluctuations[J]. International journal of fatigue (S0142-1123), 2005, 27(7): 768-772. [3] 朱维宇. 填充有/无多孔介质的T型管道中流体混合过程的流动与传热研究[D]. 北京: 北京化工大学, 2011. [4] Wu H L, Peng X F, Chen T K.Influence of sleeve tube on the flow and heat transfer behavior at a T-junction[J]. International journal of heat and mass transfer (S0017-9310), 2003, 46(14): 2637-2644. [5] 卢冬华, 村松寿晴. T型三通管内热分层流动3D数值模拟[J]. 核动力工程, 2005, 26(4): 332-334. [6] 王海军, 陈听宽, 罗毓珊, 等. T型三通管横向射流流动与传热实验研究[J]. 热能动力工程, 2002, 17(97): 14-16. [7] Kamide H, Igarashi M, Kawashima S, et al. Study on mixing behavior in a tee piping and numerical analyses for evaluation of thermal striping[J]. Nuclear Engineering and Design(S0029-5493), 2009, 239(1): 58-67. [8] 吴海玲, 陈听宽, 罗毓珊, 等. 厚壁三通管件非等温横向射流的数值模拟研究[J]. 核动力工程, 2001, 22(2): 127-132. [9] Frank T, Lifante C, Prasser H M, et al. Simulation of turbulent and thermal mixing in T-junctions using URANS and scale-resolving turbulence models in ANSYS CFX[J]. Nuclear Engineering and Design (S0029-5493), 2010, 240(9): 2313-2328. [10] Kamaya M, Nakamura A.Thermal stress analysis for fatigue damage evaluation at a mixing tee[J]. Nuclear Engineering and Design(S0029-5493), 2011, 241(8): 2674-2687. [11] Simoneau J, Champigny J, Gelineau O.Applications of large eddy simulations in nuclear field[J]. Nuclear Engineering and Design(S0029-5493), 2010, 240(2): 429-439. [12] 张土乔, 尹则高, 毛根海. 弯曲圆形管道紊流的数值模拟[J]. 水力发电学报, 2005, 24(3): 61-65. [13] 魏文礼, 戴会超. 紊流模型理论及工程应用[M]. 西安: 陕西科学技术出版社, 2006. |