Effect of canard to the aerodynamic characteristics of Blended Wing Body airplane

Author

Ali, Z.M. ; Kuntjoro, W. ; Wisnoe, Wirachman

Author_Institution

Fac. of Mech. Eng., Univ. Teknol. MARA, Shah Alam, Malaysia

fYear

2012

fDate

23-26 Sept. 2012

Firstpage

696

Lastpage

700

Abstract

This paper describes a series of ongoing wind tunnel experiments of Blended Wing Body equipped with canard as longitudinal control surface. The canard has a rectangular shape with fixed aspect ratio and planform area. All tests were conducted in the subsonic wind tunnel at the Universiti Teknologi MARA, at Mach number of 0.1. Angles of attack, α were varied from -16° to 50°. The lift curve slope, C_Lα shows that the lift coefficient does not change much with different canard setting angles. As expected, the lift coefficient increases with increasing angles of attack at any canard setting angle. In general, the moment coefficient increases as the canard setting angle is increased. The visualization using mini tufts were performed to observe airflow at the upper surface of the canard.

Keywords

Mach number; aerodynamics; aerospace components; aircraft; flow visualisation; subsonic flow; wind tunnels; MARA; Mach number; Universiti Teknologi; aerodynamic characteristics; airflow visualization; angle of attack; blended wing body airplane; canard setting angle; fixed aspect ratio; lift coefficient; lift curve slope; longitudinal control surface; mini tufts; moment coefficient; planform area; rectangular shaped canard effect; subsonic wind tunnel; wind tunnel experiments; Aerodynamics; Aircraft; Computational fluid dynamics; Drag; Mechanical engineering; Shape; Visualization; Aerodynamics; Blended Wing Body; Canard; WindTunnel;

fLanguage

English

Publisher

ieee

Conference_Titel

Business, Engineering and Industrial Applications (ISBEIA), 2012 IEEE Symposium on

Conference_Location

Bandung

Print_ISBN

978-1-4577-1632-4

Type

conf

DOI

10.1109/ISBEIA.2012.6422979

Filename

6422979