In this paper, two different comprehensive rotor analyses are described and applied to a high speed forward flight test case using the Stuttgart NEC SX5 HPC facility. Each analysis consists of an unsteady Euler/RANS CFD module coupled with a CSD module based on Timoshenko and Euler-Bernoulli beam theory, respectively. Deformable Chimera grids are applied for spatial discretization and resolution requirements call for the use of state-of-the-art vector super computers. Qualitatively, stand-alone aerodynamic results using a-priori trim data agree fairly well with wind tunnel measurements. Substantial improvement can be achieved by including the time-accurate structural response of the blades. Recent results indicate that the incorporation of an automated trim procedure is beneficial with respect to the agreement of computed and experimental global rotor parameters.
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机译:在本文中,描述了两个不同的综合转子分析,并应用于使用斯图加特NEC SX5 HPC设施的高速前进飞行测试用例。每个分析包括一个不稳定的Euler / RAN CFD模块,分别基于Timoshenko和Euler-Bernoulli光束理论与CSD模块耦合。可变形的嵌合网格用于空间离散化和分辨率要求,要求使用最先进的矢量超级计算机。定性地,使用A-Priori Trim Data的独立空气动力学结果与风洞测量相得益彰。通过包括叶片的时间准确的结构响应,可以实现实质性改进。最近的结果表明,关于计算和实验全球转子参数的协议,加入自动化过程的融合是有益的。
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