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Publication Type : Journal Article
Publisher : Indian Journal of Science and Technology,
Source : Indian Journal of Science and Technology, Volume 10, Issue 10, p.1-13 (2017)
Keywords : Aerodynamics, Discrete Location Camber Morphing, Low Reynolds Number Flows, Morphing Airfoil, XFLR5.
Campus : Coimbatore
School : Department of Aerospace Engineering, School of Engineering
Department : Aerospace
Verified : Yes
Year : 2017
Abstract : Objectives: This paper focuses on morphing the base airfoil similar into that of the target airfoil for the application of small unmanned aerial vehicle in low Reynolds number regime. Methods/Statistical Analysis: In this study, discrete location camber morphing approach was used to achieve the morphing configurations of base airfoil. Discrete location camber morphing method was classified into single, two and three location morphing configuration based on the number of morphing locations. The aerodynamic performance of morphed airfoil configurations were studied at the low Reynolds numbers of 2.5 × 10 ⁵ and 3.9 × 10 ⁵ using XFLR5 - e N method. Findings: The base airfoil for this study was selected as NACA0012. The E 207 airfoil which has better aerodynamic performance in low Reynolds number regime was selected as the target airfoil. Eleven different morphing configurations of base airfoil were developed for this study, which falls under these three classifications. Two out of eleven morphed configurations have similar geometric features and equivalent performance as that of E 207 for different range of angles of attack. These two morphed configurations showed a rise of about 3% in maximum aerodynamic efficiency compared to the target airfoil for the tested Reynolds number. Out of these two morphed configurations, one belongs to two location morphing method and another belongs to three location morphing method. This study also reveals that atleast one morphing location has to be closer to maximum camber position of the target airfoil to achieve an effective morphing. There is a possibility for switching between these two morphed configurations as they have two common morphing locations during the flight. Application/Improvements: This type of camber morphing can be positively applied in small unmanned aerial vehicles to achieve better aerodynamic performance over the entire flight mission.
Cite this Research Publication : Rajesh Senthil Kumar T., Balaramraja, V., and Dr. Sivakumar V., “Aerodynamics of Discrete Location Camber Morphing Airfoils in Low Reynolds Number Flows”, Indian Journal of Science and Technology, vol. 10, no. 10, pp. 1-13, 2017.