Aerodynamic Analysis and Wind Tunnel Testing of a MALE UAV
Magdy, A., Kamal, A., Zakaria, M., El-Farouk, O. (2025). Aerodynamic Analysis and Wind Tunnel Testing of a MALE UAV. EKB Journal Management System, 21(21), 1-16. doi: 10.1088/1742-6596/3070/l/012005
Ahmed Magdy; A. M. Kamal; M. Y. Zakaria; Omar El-Farouk. "Aerodynamic Analysis and Wind Tunnel Testing of a MALE UAV". EKB Journal Management System, 21, 21, 2025, 1-16. doi: 10.1088/1742-6596/3070/l/012005
Magdy, A., Kamal, A., Zakaria, M., El-Farouk, O. (2025). 'Aerodynamic Analysis and Wind Tunnel Testing of a MALE UAV', EKB Journal Management System, 21(21), pp. 1-16. doi: 10.1088/1742-6596/3070/l/012005
Magdy, A., Kamal, A., Zakaria, M., El-Farouk, O. Aerodynamic Analysis and Wind Tunnel Testing of a MALE UAV. EKB Journal Management System, 2025; 21(21): 1-16. doi: 10.1088/1742-6596/3070/l/012005

Aerodynamic Analysis and Wind Tunnel Testing of a MALE UAV

International Conference on Aerospace Sciences and Aviation Technology
Volume 21, Issue 21, September 2025, Pages 1-16    PDF (9.73 M)
Document Type: Original Article
DOI: 10.1088/1742-6596/3070/l/012005
Authors
Ahmed Magdy* 1; A. M. Kamal2; M. Y. Zakaria3; Omar El-Farouk4
1MSc. Student, Research and Development Center, Egyptian Air Forces, Cairo, Egypt.
2Assistant Professor, Aircraft Mechanics Department, Military Technical Collage, Cairo, Egypt.
3Associate Professor, Head of Department of Aircraft Mechanics, Military Technical Collage, Cairo, Egypt.
4Professor, Aircraft Mechanics Department, Military Technical Collage, Cairo, Egypt.
Abstract
This study investigates the aerodynamic characteristics of a Medium-Altitude, LongEndurance (MALE) UAV by employing analytical/ semi-empirical, numerical, and empirical methods, with experimental validation through wind tunnel testing. The goal is to assess the accuracy and limitations of these in the aerodynamic analysis of similar UAV configurations. First, and due to the absence of critical geometric data. a 3D laser scanning technique is used to identify the complete geometric model of the studied UAV. Then, the developed geometric model together with the flight conditions are used to perform the aerodynamic analysis using a custom-developed analytical/ semi-empirical tool (AeroMech), the empirical DATCOM tool, and the numerical panel method implemented in XFLR5. To validate the results, a scaled model is designed and manufactured based on the identified geometry for wind tunnel testing. The experimental aerodynamic data are analyzed and compared with the data obtained from the diverse methods.
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