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Stalling transport aircraft

Published online by Cambridge University Press:  27 January 2016

P. J. Bolds-Moorehead ,
V. G. Chaney ,
T. Lutz  and
S. Vaux
P. J. Bolds-Moorehead*
Affiliation:
Aerodynamics Engineering, The Boeing Company, Seattle, USA
V. G. Chaney
Affiliation:
Deputy Chief Test Pilot, The Boeing Company, Seattle, USA
T. Lutz
Affiliation:
Experimental Test Pilot, Airbus, Toulouse, France
S. Vaux
Affiliation:
Flight Test Engineer – Handling Qualities, Airbus, Toulouse, France
*
[email protected]
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Abstract

Airbus and Boeing are cooperatively presenting this topic dealing with transport aircraft stalls. The paper will begin by defining a stall, followed by a review of requirements, predictive validation and flight testing. There are various ways of designing modern jet transports for the stall regime such as aerodynamic approaches, flight deck indications, and augmentation control laws to deal with the high angle-of-attack (α) arena. The goal of augmented control laws for high α is common – no full aerodynamic stall or loss of climb performance should occur in the operational flight envelope, in Normal flight control modes. The validation techniques employed in preparation for a flight test campaign will follow. These include flight characteristic predictions based on wind-tunnel data as well as pilot-in-the-loop simulation rehearsals. The preparation for flight testing will be reviewed from both the engineer and pilot viewpoints. This will be followed by a review of various flight testing that has been conducted. The paper will close with a brief foray into what the future of transport stalls could be – perhaps protection features in degraded flight control modes? What are the benefits as well as drawbacks to increased augmentation for high α?

Type
Research Article
Information
The Aeronautical Journal , Volume 117 , Issue 1198 , December 2013 , pp. 1183 - 1206
Copyright
Copyright © Royal Aeronautical Society 2013 

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References

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