SHOWER HEAD AND TRAILING EDGE COOLING INFLUENCE ON TRANSONIC VANE AERO PERFORMANCE

机译：喷头和尾缘冷却对跨音速叶片气动性能的影响

获取原文

页面导航

摘要
著录项
引文网络
相似文献
相关主题

摘要

An experimental investigation on a cooled nozzle guide vane has been conducted in an annular sector to quantify aerodynamic influences of shower head and trailing edge cooling. The investigated vane is a typical high pressure gas turbine vane, geometrically similar to a real engine component, operated at a reference exit Mach number of 0.89. The investigations have been performed for various coolant-to-mainstream mass-flux ratios. New loss equations are derived and implemented regarding coolant aerodynamic losses. Results lead to a conclusion that both trailing edge cooling and shower head film cooling increase the aerodynamic loss compared to an uncooled case. In addition, the trailing edge cooling has higher aerodynamic loss compared to the shower head cooling. Secondary losses decrease with inserting shower head film cooling compared to the uncooled case. The trailing edge cooling appears to have less impact on the secondary loss compared to the shower head cooling. Area-averaged exit flow angles around midspan increase for the trailing edge cooling.

机译：已在环形扇形区中对冷却的喷嘴导流叶片进行了实验研究，以量化喷头和后缘冷却的空气动力学影响。所研究的叶片是典型的高压燃气轮机叶片，其几何形状类似于真实的发动机部件，并在参考出口马赫数为0.89的情况下运行。已经针对各种冷却剂与主流的质量通量比进行了研究。关于冷却剂空气动力学损失，推导并实施了新的损失方程式。结果得出的结论是，与未冷却的情况相比，后缘冷却和喷淋头膜冷却都增加了空气动力损失。另外，与喷淋头冷却相比，后缘冷却具有更高的空气动力学损失。与未冷却的情况相比，随着淋浴头薄膜冷却的插入，二次损失减少。与喷淋头冷却相比，后缘冷却似乎对二次损失的影响较小。对于后缘冷却，中跨附近的面积平均出口流角会增加。

著录项

来源
《ASME turbo expo: turbine technical conference and exposition》|2014年|V02CT38A018.1-V02CT38A018.11|共11页
会议地点
作者
Ranjan Saha; Jens Fridh; Torsten H. Fransson; Boris I. Mamaev; Mats Annerfeldt; Esa Utriainen;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类
关键词
Aerodynamic loss; shower head cooling; trailing edge cooling; film cooling; nozzle guide vane;

机译：空气动力学损失;花洒头冷却;后缘冷却;薄膜冷却;喷嘴导叶;

相似文献

外文文献
中文文献
专利

1. Shower Head and Trailing Edge Cooling Influence on Transonic Vane Aero Performance [J] . Ranjan Saha, Jens Fridh, Torsten H. Fransson, Journal of turbomachinery . 2014,第11期

机译：喷头和后缘冷却对跨音速叶片气动性能的影响
2. Understanding Capacity Sensitivity of Cooled Transonic Nozzle Guide Vanes: A Parametric Experimental and Computational Study of the Impact of Trailing Edge Geometry [J] . Daniel Burdett, Frederic Goenaga, Thomas Povey Journal of turbomachinery . 2021,第5期

机译：理解冷却跨音调喷嘴导向叶片的容量敏感性：落后几何撞击的参数实验和计算研究
3. Heat Transfer for the Blade of a Cooled Stage and One-Half High-Pressure Turbine-Part Ⅱ: Independent Influences of Vane Trailing Edge and Purge Cooling [J] . R. M. Mathison, C. W. Haldeman, M. G. Dunn Journal of turbomachinery . 2012,第3期

机译：冷却级和半高压涡轮叶片的传热-第二部分：叶片后缘和吹扫冷却的独立影响
4. CFD ANALYSIS OF SUCTION AND PRESSURE SIDE FILM COOLING INFLUENCE ON VANE AERO PERFORMANCE IN A TRANSONIC ANNULAR CASCADE [C] . Ahmad Alameldin, Lamyaa A. El-Gabry, Jens Fridh, ASME turbo expo: turbine technical conference and exposition . 2014

机译：跨音速环管中吸力和压力侧膜冷却对叶片气动性能的CFD分析
5. Showerhead Film Cooling Performance of a Turbine Vane at High Freestream Turbulence in a Transonic Cascade [D] . Nasir, Shakeel 2008

机译：跨音速叶栅中高自由流湍流下涡轮叶片的莲蓬头膜冷却性能
6. Conjugate Heat Transfer Investigation on Swirl-Film Cooling at the Leading Edge of a Gas Turbine Vane [O] . Haifen Du, Ziyue Mei, Jiayao Zou, 2019

机译：燃气轮机叶片前缘旋流膜冷却的共轭传热研究
7. Understanding Capacity Sensitivity of Cooled Transonic Nozzle Guide Vanes: A Parametric Experimental and Computational Study of the Impact of Trailing Edge Geometry [O] . Daniel Burdett, Frédéric Goenaga, Thomas Povey 2021

机译：理解冷却跨音调喷嘴导向叶片的容量敏感性：落后几何撞击的参数实验和计算研究
8. COLD-AIR ANNULAR-CASCADE INVESTIGATION OF AERODYNAMIC PERFORMANCE OF CORE-ENGINE-COOLED TURBINE VANES Ⅱ - PRESSURE SURFACE TRAILING EDGE EJECTION AND SPT.TT TRAILING EDGE EJECTION [R] . Kerry L. McLallin, Louis J. Goldman 1976

机译：冷空气环形叶栅调整核心发动机冷却涡轮叶片的气动性能Ⅱ - 压力表面拖尾边缘喷射和spT.TT拖尾边缘喷射

SHOWER HEAD AND TRAILING EDGE COOLING INFLUENCE ON TRANSONIC VANE AERO PERFORMANCE

摘要

著录项

引文网络

相似文献

相关主题

期刊订阅