弯曲变截面隔离段参数化设计与优化

为了提高弯曲变截面隔离段的气动性能,发展了基于几何融合的参数化设计与优化方法。为了丰富几何融合方法产生构型的种类,提出了基于几何长度的新型离散化方法。为满足偏置要求及灵活性要求,中心线设计时选用了B样条曲线。利用优化软件Isight内置全局算法,针对某隔离段,以弯曲隔离段出口的总压恢复系数为目标进行了优化求解。结果表明:优化构型相对于原始构型,在给定相同来流入口情况下总压恢复系数提高了12.3%。

Parameterization and Optimization for Variable Cross-Sections Bend Isolator

In order to improve aerodynamic performance of a specific variable cross-sections bend isolator, a parameterization and optimization method based on the shape blending function was developed. In order to increase the types of configuration generated by the shape blending function, a novel discretization memology based on geometric length was proposed. To meet the requirement of off-set and flexibility, B-spline curve was utilized for the off-set line design. Using the built-in global algorithm of the optimization software Isight, the total pressure recovery coefficient of the exit of a specific bend isolation section was targeted to optimize. It was found that the total pressure recovery coefficient of the optimized configuration was 12.3% higher than that of the original configuration given the same flow inlet condition.