Computation of leading edge film cooling from a CONSOLE geometry (CONverging Slot hOLE)

The aim of this study is to investigate the effect of mass flow rate on film cooling effectiveness and heat transfer over a gas turbine rotor blade with three staggered rows of shower-head holes which are inclined at 30° to the spanwise direction, and are normal to the streamwise direction on the blade. To improve film cooling effectiveness, the standard cylindrical holes, located on the leading edge region, are replaced with the converging slot holes (console). The ANSYS CFX has been used for this computational simulation. The turbulence is approximated by a k-ε model. Detailed film effectiveness distributions are presented for different mass flow rate. The numerical results are compared with experimental data.     

涡轮叶顶冷却布置对叶顶传热冷却性能的影响

本文采用数值模拟的方法,对比分析了1+1/2对转涡轮四种不同的叶顶冷却布置方案对叶顶传热、冷却性能以及气动特性的影响。四种布置方案分别是:靠近压力面垂直叶顶方向、靠近压力面且与叶顶有30°出射角、中弧线位置垂直叶顶方向、中弧线位置有30°出射角。研究表明,气膜孔沿压力面布置与气膜孔沿中弧线布置相比可以降低叶顶传热系数;由于气膜孔倾斜布置气膜射流动量降低,且削弱了肾形涡的影响,气膜的侧向覆盖范围增大。因此气膜孔靠近压力面布置可以提高气膜冷却效率;气膜孔靠近压力面且有30°出射角比垂直布置叶顶热负荷减少2.7%。另外,气膜孔靠近压力面布置可以降低主流的泄漏流量,有利于减小泄漏损失和提高涡轮效率。     

气膜孔角度对动叶前缘冲击/气膜复合冷却的影响

本文针对GE-E3第一级动叶前缘的冲击/气膜复合冷却结构进行了热流耦合数值研究.采用标准k-ω湍流模型,分析了前缘气膜孔对称布置时,其角度对透平动叶前缘冲击/气膜复合冷却特性的影响;在五种冷气质量流量比(MFR=0005,0.010, 0.016, 0.020, 0.025)下,研究了气膜孔在不同角度(β=20°,25...     

前缘逆主流喷射冷气时涡轮叶栅流场性能研究

前缘逆主流喷射冷气对壁面静压有明显影响;冷气与主流掺混及卵型涡的形成导致近叶片表面处能量损失增加;吸力面或压力面根部出现与通道涡旋向相同或相反的涡系;卵型涡能够以一定形式保持到叶栅出口并与尾迹作用,使出口处气动参数剧烈变化．     

海上风电叶片智能控制实验系统研制及控制效果分析

随着风力机大型化发展,叶片尾缘襟翼控制技术,作为叶片流场主动控制的一种有效手段,能够有效、快速、灵活地降低叶片载荷,提高风力机,特别是大型风力机的可靠性、经济性,该技术受到国内外的广泛关注.为深入了解叶片襟翼实际作用效果及降载机制,在大量数值仿真计算工作基础上,需进一步开展带有襟翼控制的模型风力机风洞实验工作.本文在相...     

出流角对旋转涡轮叶片前缘气膜冷却影响

基于频闪拍照和稳态液晶测温技术,实验研究了不同气膜孔出流角对旋转态整级涡轮叶片前缘外壁面的气膜冷却特性的影响。实验中,叶片前缘处的主流雷诺数为6.3378×104。实验转速为574 r/min,对应的旋转数为0.0018。平均吹风比从0.5变化到1.25。射流采用N2,其对应的密度比为1.04。结果表明:展向平均气膜冷效是随吹风比的增加而单调增加的,其中最佳吹风比为M=1.25。对于所有吹风比,在-4.3相似文献   

模拟涡轮叶片内冷通道方管和锥形管换热的实验研究

1引言在现代燃气涡轮发动机中，涡轮叶片内部设计了各种复杂的冷却通道结构，通人冷却空气，使工作状态下涡轮叶片温度降低，发动机得以安全运转。为此对干旋转情况下各种冷却方式换热效果的研允具有一定的现实意义。本课题时旋转状态下的方形等截面通道和收缩通道的局部对流换热特性进行了初步实验研究。为了近似地模拟叶片的冷却通道，本实验设计了光滑壁面的等截面方形通道、截面为矩形的收缩通道的实验模型。试验模型垂直于试验台的旋转轴转动，冷却气流流动方向向外。通道的热边界条件为等热流。2基本理论分析和实验研究旋转状态下的动…     

Numerical approach to new tangential slot effect on film cooling effectiveness over asymmetrical turbine blade

The focus of this numerical study is to conceive a new basic film cooling configuration in order to increase film cooling effectiveness, especially at the leading edge zone between the injection holes where cooling is mostly needed. The new configuration, resulting from the tangential slot configuration and especially adapted to the leading edge of an asymmetrical blade, is compared to the uniform slot configuration. Three alternatives geometries were proposed and numerically tested to find the configuration that provides the best film cooling effectiveness. The simulation is conducted at a fixed density ratio of 1.0 and a blowing ratio of 0.7. A new parameter, Rc, is defined to measure the rate of blade coverage by the film cooling. The outcomes of the numerical results indicate that the three proposed configurations allow better thermal protection because of their higher film cooling coverage. At suction side, the new configurations provide a better film cooling coverage than the baseline case. The minimal improvement is at approximately 34%, with a light superiority of case 1. At pressure side, the use of the tangential slot is especially interesting for the allowed minimum adiabatic effectiveness values between 0.3 and 0.5.     

低压高负荷涡轮叶栅的大涡模拟

了解预测转捩与层流分离泡,对于低压高负荷叶片设计特别重要.为此,采用大涡模拟方法,对典型高负荷叶栅T106进行了模拟.计算描述了层流分离泡,给出了壁面压力、壁面摩擦力系数的分布,从而准确预测了T106压力面上的层流分离、转捩、湍流再附现象.计算同时刻画了层流分离泡的非定常性质,给出了瞬时压力,进行了频谱分析,确定主频为2500 Hz,并观察到了瞬时涡等有意义的现象.计算同时表明二维大涡模拟计算结果可以复现出湍流的许多重要现象并且精度可以满足工程需要.     

涡轮叶栅前缘槽缝气膜冷却的数值模拟

应用FINE/TURBO软件包,求解三维雷诺平均N-S方程,对叶片前缘有两列冷却槽缝的气膜冷却流场进行了数值模拟,获得了不同吹风比下叶片表面静压分布与极限流线.在计算结果与实验数据良好符合的基础上,详细分析了槽缝冷却三维定常流场结构与槽缝附近的流动细节.研究结果表明,槽缝冷却对前缘压力分布影响较大,且在压力面引起较大的分离流动,不利于冷却.     

凹槽叶顶冷气射流对涡轮叶尖泄漏流动的影响

涡轮叶尖泄漏流动对涡轮通道内流动损失有着显著影响,叶顶冷气射流对控制叶尖泄漏流动和改善涡轮叶尖气热性能有重要意义.本文利用数值模拟方法,研究了叶顶冷气喷射位置和喷射流量对高压涡轮凹槽叶顶间隙泄漏流动控制的影响.文中重点分析了泄漏流动结构及涡轮气动效率的变化,探讨了冷气对刮削涡这一间隙内主控流动结构演化的影响.研究表明,...     

燃气透平叶片表面颗粒沉积特性数值研究进展

污染物颗粒在燃气透平叶片表面及冷却通道内的沉积将影响透平叶片的冷却特性和安全服役寿命。国外许多研究机构对燃气透平叶片表面污染物颗粒沉积特性及其与叶片气膜冷却的相互作用机制进行了持续研究。本文首次系统总结了近年来燃气透平叶片表面污染物颗粒沉积特性数值研究进展,重点介绍了燃气透平叶栅流道内污染物颗粒的沉积机制、颗粒沉积和脱离物理模型以及颗粒沉积与透平叶片冷却特性相互作用的数值模拟方法和研究成果。基于当前研究热点和发展趋势,结合作者的研究经历,指出了国内在研发先进燃气轮机透平冷却结构时应注意的问题和方向,为高效、燃料适应性更广的燃气轮机技术自主开发奠定基础。     

叶片尾缘内冷通道中最佳强化传热的针肋排列结构研究

本文应用湍流模型对涡轮叶片尾缘针肋通道的换热与流动进行了二维数值模拟研究。为了研究通道内针肋排列 方式对换热与流动的影响,对三种不同的针肋排列方式的通道进行了数值模拟计算。比较了顺排和叉排的区别,并提出了 一种沿流向叉排的针肋排列方式,且对各种排列的传热和阻力特性进行了综合分析和比较。     

缘线匹配技术在轴流透平设计中的应用探索

缘线匹配技术是叶轮机非定常气动设计技术,它以叶轮机相邻叶排前、后缘线空间相对位置为非定常设计自由度来进一步提升叶轮机性能,这在叶轮机定常设计框架下是不能考虑的。本文以单级蒸汽透平设计为例对缘线匹配非定常设计技术进行数值研究,初步展示了缘线匹配的应用方法及其设计验证,数值计算结果表明缘线匹配技术为叶轮机非定常气动设计提供了有效的设计自由度。     

叶片扰流器对风力机性能影响的数值研究

风力发电机组不断向大型化发展,风力机叶片的长度越来越长,为满足其结构要求,需要在叶片内侧采用厚翼型,而厚翼型在大攻角下容易导致流动分离,影响功率输出。本文通过对某一风力机叶片进行数值模拟,分析其近叶根处的流场,发现存在较大的流动分离现象。针对两种工况,在叶片内侧最大弦长位置增加环形扰流器后进行数值模拟,与原始叶片进行比较。结果表明:扰流器可以有效减小叶片内侧的流动分离区域,风速为11 m/s和15 m/s时功率都得到一定程度的提高,扰流器附近截面上的压力分布也有所改善。     

压气机叶片前缘楔形角对前缘分离泡的影响

在水洞内使用氢气泡流动显示方法研究环绕压气机叶片前缘的流动。实验结果表明,在前缘圆弧的下游有明显的分离泡存在。前缘圆弧半径相同而前缘楔形角不同的叶片,在同一工况下,前缘楔形角越大分离泡越小,流动分离越弱。     

Dynamic response of a horizontal axis wind turbine blade under aerodynamic,gravity and gyroscopic effects

This work presents analytical and numerical dynamics studies of a horizontal axis wind turbine blade subjected to aerodynamic, centrifugal, gravity, and gyroscopic loads. The blade, assimilated to a long beam of variable cross section, is composed of homogeneous and isotropic material. It is discretized with blade elements of constant sections. Using Finite Element Method (FEM), the assembly of these elements constitutes an approximate model of the blade. The analytical study consists on defining the elementary matrices of rigidity, mass, and gyroscopic coupling between vibration and the blade rotation, as well as the elementary vector of the external loads. The numerical study deals with the resolution of the linear system of equations of the blade motion. Then, it will be possible to calculate its static and dynamic responses for a practical case. The numerical results show that the blade presents cyclic deformations under the considered loadings. These sustained vibrations directly affect the fatigue life of the blade, leading to a significant reduction in the operational efficiency of the wind turbine.     

Numerical simulation and experimental validation of ultrasonic de-icing system for wind turbine blade

It is widely accepted that wind energy is clean and renewable. However, icing on the blade surfaces of wind turbines is a serious problem in cold regions, which greatly affects its performance. Therefore, it is important to prevent ice accumulation on the surface of wind turbine blade and remove it whenever necessary. In this paper, a new non-thermal method–ultrasonic de-icing for wind turbine blade is proposed. Firstly, baced on the theory of ultrasonic de-icing, the harmonic analysis of the structure of the composite plate-ice layered system is investigated using the finite element method. The simulation results showed that ultrasonic de-icing method is feasible for wind turbine blade de-icing purposes. Secondly, the de-icing experiment of wind turbine blades using piezoelectric actuators is carried out in the freezer at a temperature of −15 °C, results showed that the ice layer can be debonded from the surface of wind turbine blade by the commonly used piezoelectric transducers made by PZT-5. The optimal frequency of ultrasonic de-icing of wind turbine blade is also given; finally, the installation way of ultrasonic transducers on the inner surface of wind turbine blade is given.     

冷气喷射对直叶栅型面压力及气动损失分布影响的实验研究

提高燃气涡轮比功率，降低比油耗要通过升高涡轮入口温度和压气机压比实现，但必须对涡轮叶片实施诸如气膜冷却等保护措施。Ito和Goldstein[1]，Yamamoto[2]等分别研究了冷气喷射对在叶栅气动性能的影响。本文通过实验研究了冷气喷射对叶型型面压力和叶栅流道内气动损失的影响，并得出了一些有意义的结论。1实验装置实验在哈尔滨工业大学发动机气体动力研究中心低速风洞实验台[3]上进行。图1及表1给出了实验用叶片型线（取自一典型涡轮导向器叶型），冷气喷射孔位置及静压孔分布。叶片表面前缘、吸力面后部和压力面后部开了三列孔，每列孔…     

1+1/2对转涡轮中激波结构的数值研究

本文对1 1／2对转涡轮中激波及激波／叶排干扰等进行了详细的数值模拟。分析发现,1 1／2对转涡轮高压动叶流道中压缩波系与常规涡轮流道中的压缩波系存在明显的不同。1 1／2对转涡轮高压动叶吸力面60％轴向弦长处产生了一组压缩波,它与内伸波相交。在常规涡轮中,这组压缩波将不会出现;内伸波在吸力面的反射波很强,不能忽略。在常规涡轮中,内伸波的反射波可以忽略。由于尾迹及低压动叶的作用,高压动叶外伸波的影响范围和强度呈现周期性的变化。