航空学报 > 2020, Vol. 41 Issue (1): 123118-123118   doi: 10.7527/S1000-6893.2019.23118

基于气动载荷分布的螺旋桨诱导流场重构设计

王科雷1,2, 周洲1,2, 祝小平3, 郭佳豪1,2, 范中允1,2   

  1. 1. 西北工业大学 航空学院, 西安 710072;
    2. 西北工业大学 长三角研究院, 太仓 215400;
    3. 西北工业大学 航天学院, 西安 710072
  • 收稿日期:2019-04-29 修回日期:2019-07-11 出版日期:2020-01-15 发布日期:2019-07-22
  • 通讯作者: 王科雷 E-mail:craig-wang@nwpu.edu.cn
  • 基金资助:
    装备预研项目(41411020401);民机专项(MJ-2015-F-009);大院大所创新引领专项计划(TC2018DYDS24)

Reconstruction design of propeller induced flow-field based on aerodynamic loading distributions

WANG Kelei1,2, ZHOU Zhou1,2, ZHU Xiaoping3, GUO Jiahao1,2, FAN Zhongyun1,2   

  1. 1. School of Aeronautics, Northwestern Polytechnical University, Xi'an 710072, China;
    2. Yangtze River Delta Research Institute, Northwestern Polytechnical University, Taicang 215400, China;
    3. School of Astronautics, Northwestern Polytechnical University, Xi'an 710072, China
  • Received:2019-04-29 Revised:2019-07-11 Online:2020-01-15 Published:2019-07-22
  • Supported by:
    Equipment Pre-research Program (41411020401); Civil Aircraft Project (MJ-2015-F-009); Taicang Innovation Leading Institute Project (TC2018DYDS24)

摘要: 基于分布式电推进飞行器创新性发展理念,以螺旋桨滑流耦合下机翼气动效率最优为目标开展螺旋桨诱导流场重构设计研究。首先,通过构建基于动量源方法的准定常数值模拟技术,建立了螺旋桨桨盘载荷分布与诱导流场特性之间的联系;然后,基于对螺旋桨桨盘气动载荷分布曲线的参数化控制,提出了螺旋桨诱导流场重构优化设计思想及设计方法;最后,通过相关设计结果的对比分析验证了所提出螺旋桨诱导流场重构设计思想及设计方法的有效性和可靠性。结果表明:与等拉力最小诱导损失螺旋桨相比较,基于所提出诱导流场重构设计思想设计得到的螺旋桨最优气动载荷分布耦合下的机翼气动效率得到显著改善,在本文设计状态下,机翼翼段计算升力相对提高10.40%,计算阻力相对降低7.05%,计算升阻比相对增大18.77%。

关键词: 分布式电推进, 螺旋桨, 动量源, 气动载荷分布, 流场重构

Abstract: Based on the innovative developing concept of the distributed electric propulsion aircrafts, the reconstruction design of the propeller induced flow-filed is carried out in this study to obtain the maximum propeller/wing integrated aerodynamic efficiency. First, the quasi-steady numerical simulation technique is developed based on the momentum source method, then the relationship between the aerodynamic loading distributions and the propeller induced flow-field properties is established. Second, the optimization design method developed for the reconstruction of the propeller induced flow-field is proposed by controlling the parameterized aerodynamic loading distribution profiles. Finally, both the reliability and efficiency of the proposed aerodynamic design concept are studied. The results show that compared with the minimum induced loss propeller, the optimized aerodynamic loading distributions on the propeller disk lead to significant improvement of the wing aerodynamic performance under the slipstream effect. As a result, the wing section has a relative lift augmentation of 10.40%, a relative drag decrease of 7.05%, and a relative lift-to-drag increment of 18.77%.

Key words: distributed electric propulsion, propeller, momentum source, aerodynamic loading distribution, flow-field reconstruction

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