首页 /研究 /Experimental analysis of the sweepback angle effect on the thrust generation of a robotic penguin wing
LOCOMOTION

Experimental analysis of the sweepback angle effect on the thrust generation of a robotic penguin wing

Yayi Shen, Hiroto Tanaka

发表年份
2023
引用次数
6

摘要

Penguins have evolved excellent swimming skills as diving birds, benefiting from their agile wings. This paper experimentally analyzes the effects of the wing sweepback angle on thrust generation using a robotic penguin wing. A developed wing mechanism that can realize penguin-like flapping and feathering motion was used for actuating five alternative wing models, with different sweepback angles ranging from 0° to 50°. Force measurements under a steady water flow were conducted for both fixed and flapping states for all wing models. The results showed that small sweepback angles of 30° or less in the fixed state caused a steep lift curve and a moderate sweepback angle of 30° produced the largest lift-to-drag ratio. In the flapping state, the smaller sweepback wings generated a larger net thrust for the same wing motion, whereas the larger-sweepback wings produced more thrust under the same Strouhal number. The findings also revealed that larger sweepback wings more easily achieve the maximum net thrust in terms of less angle-of-attack control. In contrast, the hydrodynamic efficiency was not greatly affected by the sweepback. Regardless of the sweepback, the trend of the efficiency increasing with increasing flow speed indicates that the penguin wings can be more suitable for high-speed locomotion for higher hydrodynamic efficiency.

关键词

FlappingWingThrustStrouhal numberAngle of attackLift (data mining)DragWing twistWing loadingLift-to-drag ratio

相关论文

查看 LOCOMOTION 分类全部论文