Tarabi A, Gasemloo S, Mani M. Experimental and Numerical Study of a Variable-Span-sweep Morphing Wing on the Aerodynamic Characteristics of a UAV. Modares Mechanical Engineering 2015; 15 (3) :125-136
URL:
http://mme.modares.ac.ir/article-15-3159-en.html
1- Aerospace Eng. Complex, Maleke-Ashtar University of Technology
2- Aerospace Research Institute, Maleke-Ashtar University of Technology
3- Amirkabir University of Technology
Abstract: (5702 Views)
In this research, experiment and computational fluid dynamics (CFD) are used to assess the performance of UAV with variable-span and sweep morphing wing under low speed conditions. Both wing area and aspect ratio are changed due to variations in span and sweep, whereas structure of the variable-span and sweep morphing wing remains constant. In this study, the numerical results of Fluent software and experimental data are presented. Results are achieved under a low wind speed (50, 60 and 70 m/s). In this case, full extension represents a 30% (10 cm) increase in wing span and 36% (12 deg.) in sweep angle relative to the original wing, with no extension. The results of this study show that the morphing wing is capable to improved aerodynamic efficiency, increased both range and endurance, reduced induced drag and in general reduced thrust required. According to experimental and numerical results, the use of morphing wing can increase the range by 13.6% and 13.5%, also, endurance of the vehicle by approximately 8.855 and 8.17%, respectively. The results of this study show that the maximum value of lift-to-drag ratio occurred at 6 degrees angle of attack and a speed of 70m/s. These results demonstrate that the use of morphing wing improve the lift-to-drag ratio by 10% compared to original wing. Finally, the numerical simulations are compared and show good agreement with the experimental results. This research also showed how morphing concept can be used as an alternative method for roll control.
Article Type:
Research Article |
Subject:
Aerodynamics Received: 2014/12/16 | Accepted: 2015/01/19 | Published: 2015/01/24