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Three-Dimensional Navier-Stokes Heat Transfer Predictions for Turbine Blade Rows

机译：涡轮叶片行的三维Navier-stokes传热预测

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Results are shown for a three-dimensional Navier-Stokes analysis of both the flowand the surface heat transfer for turbine applications. Heat transfer comparisons are made with the experimental shock-tunnel data of Dunn and Kim, and with the data of Blair for the rotor of the large scale rotating turbine. The analysis was done using the steady-state, three-dimensional, thin-layer Navier-Stokes code developed by Chima, which uses a multistage Runge-Kutta scheme with implicit residual smoothing. An algebraic mixing length turbulence model is used to calculate turbulent eddy viscosity. The variation in heat transfer due to variations in grid parameters is examined. The effects of rotation, tip clearance, and inlet boundary layer thickness variation on the predicted blade and endwall heat transfer are examined.

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Boyle, R. J.; Giel, P. W.;
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年度 1992
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总页数 16
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Heat transfer; Navier-stokes equation; Prediction analysis techniques; Threedimensional models; Turbine blades; Boundary layer flow; Clearances; Computational grids; Eddy viscosity; Mathematical models; Mixing length flow theory; Runge-kutta method; Turbu;

机译：传热; Navier-stokes方程;预测分析技术;三维模型;涡轮叶片;边界层流;间隙;计算网格;涡粘度;数学模型;混合长度流理论; Runge-kutta方法; Turbu;

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专利

1. Three-Dimensional RANS Prediction of Gas-Side Heat Transfer Coefficients on Turbine Blade and Endwall [J] . Jiang Luo, Eli H. Razinsky, Hee-Koo Moon Journal of turbomachinery . 2013,第2期

机译：涡轮叶片和端壁上气体侧传热系数的三维RANS预测
2. Aerodynamics and Heat Transfer for a Cooled One and One-Half Stage High-Pressure Turbine-Part III: Impact of Hot-Streak Characteristics on Blade Row Heat Flux [J] . R. M. Mathison, C. W. Haldeman, M. G. Dunn Journal of turbomachinery . 2012,第1期

机译：冷却的一级和半级高压涡轮的空气动力学和传热-第三部分：热条纹特性对叶片行热通量的影响
3. Capturing Sudden Increase in Heat Transfer on the Suction Side of a Turbine Blade Using a Navier-Stokes Solver [J] . Faisal Rahman, Jan A. Visser, Reuben M. Morris Journal of turbomachinery . 2005,第3期

机译：使用Navier-Stokes解算器捕获涡轮叶片吸力侧传热的突然增加
4. Numerical Prediction of Film Cooling and Heat Transfer on the Leading Edge of a Rotating Blade with Two Rows Holes in a 1- 1/2 Turbine Stage At Design and Off Design Conditions [C] . Huitao Yang, Hamn-Ching Chen, Je-Chin Han, ASME Turbo Expo vol.3 pt.A; 20050606-09; Reno-Tahoe,NV(US) . 2005

机译：在设计和非设计条件下，在1-1 / 2涡轮级具有两排孔的旋转叶片前缘上的薄膜冷却和传热的数值预测
5. Three-dimensional conjugate heat transfer analysis of a cooled transonic turbine blade using non-reflecting boundary conditions. [D] . Findlay, Jonathon Peter. 2005

机译：使用非反射边界条件对冷却的跨音速涡轮叶片进行三维共轭传热分析。
6. PSO-BP Neural Network-Based Strain Prediction of Wind Turbine Blades [O] . Xin Liu, Zheng Liu, Zhongwei Liang, 2019

机译：基于PSO-BP神经网络的风力发电机叶片应变预测
7. Three-dimensional Navier-Stokes heat transfer predictions for turbine blade rows [O] . Giel Paul W., Boyle Robert J. 1992

机译：涡轮叶片行的三维Navier-Stokes传热预测
8. Three-dimensional Navier-Stokes heat transfer predictions for turbine blade rows [R] . Boyle, Robert J., Giel, Paul W. 1992

机译：涡轮叶片排的三维Navier-stokes传热预测

Three-Dimensional Navier-Stokes Heat Transfer Predictions for Turbine Blade Rows

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