论文信息 - Aerodynamic Characteristics of a Low Aspect Ratio Wing and Propeller Interaction for a Tilt-Body MAV

Aerodynamic Characteristics of a Low Aspect Ratio Wing and Propeller Interaction for a Tilt-Body MAV

An experimental investigation of the interaction of a propeller-wing configuration for a tilt body MAV VTOL was performed in the low speed wind tunnel. This study's primary objective is to present the effect of the interactions between a low aspect ratio wing and propeller for a range of incidence in transition between horizontal and vertical flight. During the transition from horizontal flight to vertical flight or vice versa, the flow patterns seen by the wing are the result of the combination between the free-stream and the propeller flow. This was reflected in the change of the aerodynamic forces and moments of the wing. The model is a tractor configuration propeller and with a wing of aspect ratio equal to one, the airfoil of the wing is a NACA 0012. All tests were conducted at low speeds in a range from 2 to 8 m/s. In order to simulate the transition flight of a tilt-body MAV VTOL a range of incidence from −10 to 90 degrees was used. The results show that the flow of the propeller certainly improves the aerodynamic characteristics of the wing, increasing the lift and delaying stall with respect to the flight path of the MAV.

Chinnapat Thipyopas | Jean-Marc Moschetta | Kwanchai Chinwicharnam | David Gomez Ariza

[1] Inderjit Chopra,et al. Experimental Investigation of Performance of a Wing-Propeller System for a Quad-Rotor-Biplane Micro Air Vehicle , 2013 .

[2] Jean-Marc Moschetta,et al. Development of a VTOL mini UAV for multi-tasking missions , 2009 .

[3] Chinnapat Thipyopas,et al. Experimental Analysis of a Fixed-Wing VTOL MAV in Ground Effect , 2010 .

[4] N. Ageev. Numerical investigation of disc-wing MAV with propeller in a wing slot , 2011 .

[5] Jean-Marc Moschetta,et al. Equilibrium Transition Study for a Hybrid MAV , 2011 .

[6] Ohad Gur,et al. Novel Approach to Axisymmetric Actuator Disk Modeling , 2008 .

[7] Fernando Martini Catalano. On the Effects of an Installed Propeller Slipstream on Wing Aerodynamic Characteristics , 2004 .

[8] Leo L. Veldhuis,et al. Propeller Wing Aerodynamic Interference , 2005 .

[9] William H. Rae,et al. Low-Speed Wind Tunnel Testing , 1966 .

[10] Barnes W. McCormick,et al. Aerodynamics of V/STOL flight , 1967 .

[11] Shuanghou Deng,et al. A Computational Study on the Aerodynamic Influence of a Propeller on an MAV by Unstructured Overset Grid Technique and Low Mach Number Preconditioning , 2012 .

[12] G. Abate,et al. Longitudinal aerodynamics of rapidly pitching fixed-wing micro air vehicles , 2012 .

[13] Sergey V Shkarayev,et al. Longitudinal Aerodynamics of a Vertical Takeoff and Landing Micro Air Vehicle , 2011 .

[14] H. S. Ribner. Propellers in yaw , 1943 .