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Title: | A Computational Investigation of Unsteady Aerodynamics of Insect-Inspired Fixed Wing Micro Aerial Vehicle’s 2D Airfoil |
Authors: | Somashekar V. |
Keywords: | Aerodynamics Aeronautical Engineering |
Issue Date: | 11-Jun-2014 |
Publisher: | Hindawi Publishing Corporation |
Citation: | Somashekar, V. (2014). A Computational Investigation of Unsteady Aerodynamics of Insect-Inspired Fixed Wing Micro Aerial Vehicle’s 2D Airfoil. |
Abstract: | AMicro air vehicle (MAV) is defined as class of unmanned air vehicle (UAV) having a linear dimension of less than 15 centimeters and a mass of less than 100 grams with flight speeds of 6 to 12 meters per second. MAVs fall within a Reynolds number (Re) range of 50,000 and 120,000, in which many causes of unsteady aerodynamic effects are not fully understood.The research field of low Reynolds number aerodynamics is currently an active one, with many defence organizations, universities, and corporationsworking towards a better understanding of the physical processes of this aerodynamic regime. In the present work, it is proposed to study the unsteady aerodynamic analysis of 2D airfoil using CFD software and Xfoil panel code method. The various steps involved in this work are geometric modelling using CATIA V5R17,meshing using ICEM CFD, and solution and postprocessing through FLUENT. The finite control volume analysis and Xfoil panel code method has been carried out to predict aerodynamic characteristics such as lift coefficients, drag coefficients, moment coefficients, pressure coefficients, and flow visualization. The lift and drag coefficients were compared for all the simulations with experimental results. It was observed that for the 2D airfoil, lift and drag both compared well for the midrange angle of attack from −10 to 15 degree AOA. |
URI: | http://13.232.72.61:8080/jspui/handle/123456789/285 |
Appears in Collections: | Articles |
Files in This Item:
File | Description | Size | Format | |
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A Computational Investigation of Unsteady Aerodynamics of Insect-Inspired Fixed Wing Micro Aerial Vehicle's 2D Airfoil.pdf | 3.28 MB | Adobe PDF | View/Open |
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