Calculation of the transonic dip of airfoils using viscous-inviscid aerodynamic interaction method

A numerical procedure for the calculation of the transonic dip of airfoils in the time domain is presented. A viscous-inviscid aerodynamic interaction method is taken to calculate the unsteady aerodynamic loads. In the present case the integral boundary layer equations are coupled with the Transonic Small Disturbance (TSD) Potential Equation. The coupling between structural motion and aerodynamic loads is carried out using State Space equation. It is solved by State Transition Matrix technique. Results are presented for NACA 64A010 and NLR 7301 airfoils with structural data from Isogai and DLR, respectively. Comparisons show good agreement with other numerical results. Certain deviations of experimental data taken from literature need more insight in the detailed test conditions.     

叶根间隙泄漏流对跨声压气机转子性能的影响

为研究压气机转子上游叶根轴向间隙泄漏流对转子性能的影响程度以及泄漏流与转子流场之间的相互作用机制,对带有叶根泄漏流的跨声压气机转子流场进行了数值模拟。计算时分别采用了两种模化途径,即耦合求解转子上游叶根间隙内空腔与转子通道内的流场,以及求解将叶根间隙模化为进口边界的转子流场。结果表明:叶根泄漏流可使叶根附近流动堵塞增大,造成转子气动性能的恶化。另外,叶根泄漏流的周向速度分量越大,泄漏流对转子流场的不利影响也越大。     

跨音速小扰动方程的多重解

本文利用Engquist-Osher格式,离散跨音速小扰动方程(TSD)和边界条件,选择不同初场计算NACA0012翼型二维定常位势流场,得到了与试验值较符合的结果,同时用Murman-Cole非守恒和守恒两格式计算并进行了比较。着重用数值实验进一步探讨多重解问题,发现并总结出了几点很有参考价值的规律和现象。     

喷管流场数值仿真CFD／Nozzle软件包设计

ＣＦＤ／Ｎｏｚｚｌｅ软件包是一套专门的二维轴对称跨音速喷管流场计算机辅助设计分析工具。它采用高度集成化的操作环境，将网格生成、数值计算、图形显示全部过程集于一体。具有西文环境下的全中文用户界面，操作环境同时提供详尽的彩色图文方式下的中文提示。数值方法稳健，兼具源程序开放与编译连接自动化特点。叙述了ＣＦＤ／Ｎｏｚｚｌｅ软件包设计思想和实现方式，并给出了流场计算、参数分析、功能扩充几方面的应用实例。     

直接的矩阵分裂计算跨音速喷管流场

给出了分离系数矩阵求解欧拉方程组时系数矩阵的直接分离公式，减少和简化了应用该方法时的矩阵运算，参照Ｂｅａｍ－Ｗａｒｍｉｎｇ显式格式构造与ＳＣＭ方法一致的内点差分格式，并分析了它的数值特性，对有斜激波的跨音速内流场进行了数值仿真。计算中采用变系数的当地时间步长，加快了流场达到的收敛速度，计算无需引入任何人工参数，计算值与实验结果吻合。     

喷管型面对固体火箭发动机性能的影响

用时间相关法数值计算跨音速喷管流动时,其控制方程分别采用守恒型和非守恒型方程.通过对JPL喷管进行计算发现:在相同的精度下,非守恒型方程的收敛速度比守恒型方程的收敛速度快一倍多.采用修正阻尼法(DASHCO法)进行数值计算,其收敛速度均提高六倍以上.最后,采用直接优化法研究了喷管收敛段型面及喉部型面对发动机性能的影响.     

多级压气机中可控扩散叶型研究的进展与展望 第二部分 可控扩散叶型的实验与数值模拟

目前 ,大量的可控扩散叶型 (CDA)已设计应用于多级轴流压气机中。通过亚音、跨音叶栅实验 ,证明了在可比的气动设计条件下 ,CDA叶栅可以达到更高的临界马赫数、更大的冲角范围和更高的负荷。通过单级或多级测试 ,CDA提供了更高的效率、更高的负荷、且易于进行级间匹配 ,并最终减少研发费用 ,提高喘振裕度 ;由于 CDA叶型具有增厚的前缘和尾缘 ,这为压气机寿命的提高提供了保证     

Transonic buffet control research with two types of shock control bump based on RAE2822 airfoil

Current research shows that the traditional shock control bump (SCB) can weaken the intensity of shock and better the transonic buffet performance.The author finds that when SCB is placed downstream of the shock,it can decrease the adverse pressure gradient.This may prevent the shock foot separation bubble to merge with the trailing edge separation and finally improve the buffet performance.Based on RAE2822 airfoil,two types of SCB are designed according to the two different mechanisms.By using Reynolds-averaged Navier-Stokes (RANS) and unsteady Reynolds-averaged Navier-Stokes (URANS) methods to analyze the properties of RAE2822 airfoil with and without SCB,the results show that the downstream SCB can better the buffet performance under a wide range of freestream Mach number and the steady aerodynamics characteristic is similar to that of RAE2822 airfoil.The traditional SCB can only weaken the intensity of the shock under the design condition.Under the off-design conditions,the SCB does not do much to or even worsen the buffet performance.Indeed,the use of backward bump can flatten the leeward side of the airfoil,and this is similar to the mechanism that supercritical airfoil can weaken the recompression of shock wave.     

流线曲率法在多级跨声速轴流压气机特性预测中的应用

为研究多级跨声速压气机的分析问题,以通流理论为基础,采用了一系列适用于跨声速压气机的攻角、落后角和损失等经验模型,发展了一套基于流线曲率法的通流计算程序来预测跨声速压气机流场及其工作特性。为提高经验模型的预测精度,考虑到真实压气机中复杂的三维流动效应,针对部分早期模型进行了合理改进,包括改进了落后角模型使其适用于更大弯度范围叶型,以及采用一种更为合理的可变结构激波损失预测模型。针对两台跨声速压气机算例进行了计算校验,并将校验结果与实验值和三维数值计算进行对比。对比表明,设计工况下总压比最大计算误差为4.1%,效率误差为1.1%,在非设计工况特性预测和展向流场参数计算中也能得到和实验值相符的变化趋势,该通流计算方法可为现代跨声速轴流多级压气机特性分析提供具有参考价值的预测结果。     

Effect of blade tip winglet on the performance of a highly loaded transonic compressor rotor

The tip leakage flow has an important influence on the performance of transonic com-pressor. Blade tip winglet has been proved to be an effective method to control the tip leakage flow in compressor, while the physical mechanisms of blade tip winglet have been poorly understood. A numerical study for a highly loaded transonic compressor rotor has been conducted to understand the effect of varying the location of blade tip winglet on the performance of the rotor. Two kinds of tip winglet were designed and investigated. The effects of blade tip winglet on the compressor over-all performance, stability and tip flow structure were presented and discussed. It is found that the interaction of the tip winglet with the flow in the tip region is different when the winglet is located at suction-side or pressure-side of the blade tip. Results indicate that the suction-side winglet (SW) is ineffective to improve the performance of compressor rotor. In addition, a significant stall range extension equivalent to 33.74% with a very small penalty in efficiency can be obtained by the pressure-side winglet (PW). An attempt has been made to explain the fundamental mechanisms of blade tip winglet in detail.