Active Aerodynamic Load Reduction on a Rotorcraft Fuselage With Rotor Effects: A CFD Validation Effort

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Active Aerodynamic Load Reduction on a Rotorcraft Fuselage With Rotor Effects: A CFD Validation Effort

Allan, Brian G. / Schaeffler, Norman W. / Jenkins, Luther N. / Yao, Chung-Sheng / Wong, Oliver D. / Tanner, Philip E.

A rotorcraft fuselage is typically designed with an emphasis on operational functionality with aerodynamic efficiency being of secondary importance. This results in a significant amount of drag during high-speed forward flight that can be a limiting factor for future high-speed rotorcraft designs. To enable higher speed flight, while maintaining a functional fuselage design (i.e., a large rear cargo ramp door), the NASA Rotary Wing Project has conducted both experimental and computational investigations to assess active flow control as an enabling technology for fuselage drag reduction. This paper will evaluate numerical simulations of a flow control system on a generic rotorcraft fuselage with a rotor in forward flight using OVERFLOW, a structured mesh Reynolds-averaged Navier-Stokes flow solver developed at NASA. The results are compared to fuselage forces, surface pressures, and PN flow field data obtained in a wind tunnel experiment conducted at the NASA Langley 14-by 22-Foot Subsonic Tunnel where significant drag and download reductions were demonstrated using flow control. This comparison showed that the Reynolds-averaged Navier-Stokes flow solver was unable to predict the fuselage forces and pressure measurements on the ramp for the baseline and flow control cases. While the CFD was able to capture the flow features, it was unable to accurately predict the performance of the flow control.

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Title :

Active Aerodynamic Load Reduction on a Rotorcraft Fuselage With Rotor Effects: A CFD Validation Effort

Contributors:

Allan, Brian G. (author) / Schaeffler, Norman W. (author) / Jenkins, Luther N. (author) / Yao, Chung-Sheng (author) / Wong, Oliver D. (author) / Tanner, Philip E. (author)

Conference:

American Helicopter Society International Annual Forum & Technology Display ; 2015 ; Virginia Beach, VA, United States

Publication date :

2015-05-05

Type of media :

Conference paper

Type of material :

No indication

Language :

English

Keywords :

Aerodynamics , Fluid Mechanics And Thermodynamics

Allan, Brian G. / Schaeffler, Norman W. / Jenkins, Luther et al. | British Library Conference Proceedings | 2015

Mechanisms of Active Aerodynamic Load Reduction on a Rotorcraft Fuselage With Rotor Effects

Schaeffler, Norman W. / Allan, Brian G. / Jenkins, Luther N. et al. | NTRS | 2016

Experimental Investigation of Active Aerodynamic Load Reduction on a Rotorcraft Fuselage with Rotor Effects

Schaeffler, Norman W. / Allan, Brian G. / Wong, Oliver et al. | AIAA | 2014

Experimental Investigation of Active Aerodynamic Load Reduction on a Rotorcraft Fuselage with Rotor Effects (AIAA 2014-2561)

Schaeffler, N. / Allan, B. / Wong, O. et al. | British Library Conference Proceedings | 2014

Aerodynamic Force Computations for Rotorcraft Fuselage

Singh, R. / Dinavahi, S. / American Institute of Aeronautics and Astronautics | British Library Conference Proceedings | 2012

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