上海交通大学 a. 机械与动力工程学院; b. 燃气轮机与民用航空发动机教育部工程研究中心, 上海 200240
收稿日期:
2019-05-12出版日期:
2020-10-28发布日期:
2020-11-09通讯作者:
吴亚东,男,副研究员,博士生导师,电话(Tel.):021-34204410;E-mail:yadongwu@sjtu.edu.cn.作者简介:
张科(1995-),男,山东省潍坊市人,硕士生,主要从事大涵道比风扇叶片优化设计等研究.基金资助:
国防基础科研计划(B1420110136),上海市自然科学基金(18ZR1418600)资助项目Blade Optimization Design for Expanding Stable Operating Range of High Bypass Ratio Fan
ZHANG Kea,WU Yadonga,ba. School of Mechanical Engineering; b. Engineering Research Center of Gas Turbine and Civil Aero Engine of the Ministry of Education, Shanghai Jiao Tong University, Shanghai 200240, China
Received:
2019-05-12Online:
2020-10-28Published:
2020-11-09摘要/Abstract
摘要: 基于Kriging代理模型构建了针对大涵道比涡扇发动机风扇叶片的气动优化设计方法,集成了参数化建模、TurboGrid网格划分和计算流体力学(CFD)组合优化技术.以风扇叶片的各叶高截面叶型为优化对象,进行基于叶片安装角扭转和最大厚度位置移动的叶型重构.选取失速点流量作为目标函数,对风扇叶片稳定运行范围进行评估并优化.与原叶片相比,优化叶片的稳定运行范围拓宽10.1%,且在稳定运行范围中表现出更高的性能.效率和压力系数的最大增幅分别为2.63%和9.27%,表明优化过程有效地拓宽了风扇叶片的稳定工作范围,并大幅提高了效率和总压升等性能指标.
关键词: Kriging代理模型, 大涵道比风扇叶片, 气动优化设计, 叶型重构, 稳定运行范围
Abstract: An aerodynamic optimization design method for high bypass ratio fan blades based on the Kriging surrogate model was constructed, which integrated parametric modeling, TurboGrid meshing, and computational fluid dynamics (CFD) combined optimization technology. The optimization method was implemented for airfoils at several spans of a fan blade and redesign of airfoils from blade setting angle rotating and maximum-thickness position moving. The mass flow at stall points was chosen as target function to evaluate and optimize the stable operating range of fan blade. Compared with prototype design, the stable operating range of the blade optimized was expanded by 10.1%, among which the aerodynamic performance was also enhanced, with a maximum increment of 2.63% for efficiency and 9.27% for pressure coefficient. The results show that the optimization design system has broadened the stable operating range of fan blade effectively, and has also substantially improved efficiency and total pressure rise.
Key words: Kriging surrogate model, high bypass ratio fan blades, aerodynamic optimization design, airfoil redesign, stable operating range
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