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A321 Lateral Control in Turbulence and Icing Conditions
Operational Liaison Meeting Fly-By-Wire aircraft 2004
Customer Services
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A321 Lateral Control in Turbulence and Icing Conditions
In service events
Icing conditions
Crosswind conditions
Corrective actions4Short term OEB4Mid term ELAC modification
Other modifications introduced in ELAC L83/L91
ELAC L83/L91 certification and retrofit status
Conclusion
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In service events
On A321, several in service events between 1998 and 2003 highlighted unusual roll sensitivity in short final
44 cases in icing conditions (2 the same day on the same airport in 1998, and 2 the same day on the same airport in 2002)
42 cases with gusty crosswind around 20kt (1 in 2001, and 1 in 2003)
Worst consequence was a wingtip damage during a gusty Xwind landing
In all cases, landing in Conf 3 after a Go around was performed without apparent difficulty
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Icing conditions
On one of the involved A321, ice accretion on flaps leading edge was confirmed after landing. On the other cases, ice accretion on flap leading edge was suspected .
Analysis of available data (DFDR) shows that spoilers efficiency was increased versus the dry aircraft.
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Icing conditions
To better understand the phenomenon, a natural icing Flight Test campaign on A320 and on A321 (both fitted with adequate Flight Test Installation) was performed in 2003. The purpose was to evaluate ice accretion patterns on flap leading edges and the aero consequences.
Main findings were:4Similar ice accretion on both A/C.4Increased spoilers efficiency on both A/C.4Increased roll sensitivity only on A321.
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Icing conditions
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Icing conditions
To go further and allow extensive testing of iced aircraft, ice shapes were manufactured using videos from natural ice flights.
~ 60mm
~ 5m
m~ 130mm
~ 15mm
~ 10mm
Flap A
Flap B
Spoiler
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Icing conditions
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Icing conditions
Flights with ice shapes allowed to quantify spoilers efficiency increase (+25%) on both A320 & A321.
Analytic roll inputs showed unusual A321 roll response of the iced A/C (overshoot, degraded turn coordination). (A320/319 are OK on this aspect).
This degradation was mainly observed in Conf Full, to a much lower extent in Conf 3.
Similarly, the increased spoilers efficiency decreased the A321 F/CTL law stability at some piloting frequencies in Conf Full and not in Conf 3. (A320/319 are OK on this aspect).
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Crosswind conditions
Recorders analysis of both events allowed to link the roll oscillations to pedal inputs applied very early in approach (starting from 200ft).
Rudder was apparently used to co-ordinate the turn (i.e. in the same direction as roll stick input) and/or to increase roll response.
In one case, after a Go around, rudder was used as recommended (for de-crab) in Conf 3 without any problem.
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Icing and crosswind conditions synthesis
A deep analysis shows that on A321, roll generated by rudder pedals in Conf Full was more important than on other Single Aisle aircraft.
The additional roll generated by rudder inputs and/or gust can be compared to the increased roll efficiency of spoilers on iced A/C.
Both icing and crosswind incidents have the same root cause: a reduced stability margin of the lateral normal law (with pilot in the loop) when combined with additional (non linear) roll efficiency (generated by rudder input/gust/ice shapes effects on spoilers).
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A321 lateral law stability summary
Lateral law stability is satisfactory
A321, Conf Full nominal case (no ice, no crosswind)
Lateral law stability is decreased
Risk of PIO is increased
A321, Conf Full + roll response modification
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Corrective actions
Short term actions: A red OEB (153-1, June 2003) was issued to airlines recommending Conf 3 for landing with significant crosswind, in moderate to severe turbulence, or in moderate to severe icing conditions.
Mid term actions: Modifications of the lateral normal control law in Conf 3 and Full on A321.
Re-tuning of the gains (Conf 3 and Full) and adjustment of spoilers kinematics (Conf Full).
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Corrective actions
After complete flight test evaluation (including evaluation incrosswind and with ice shapes), modifications were judged satisfactory:
Stability margin at the same level than A320. A/C response in normal conditions not degraded versus basic
A/C (even improved).
A/C handling with ice or in turbulence/crosswind significantly improved (for pilot used to fly the A321, lateral behaviour is now similar to the A320).
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Corrective actions
Lateral law stability is satisfactory
A321, Conf Full nominal case (no ice, no crosswind)
Impact of roll response modification was decreased (same level as A320)
no more risk of PIO
L83/L91L81
A321, Conf Full + roll response modification
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Other modifications introduced in ELAC L83/L91
Some other improvements were introduced on ELAC L83/L91 for A321:
Autopilot (AP) robustness :4AP disengagement logic upon Vc/Mach overspeed conditions is
made more robust (same logic as on A330/340 family, based on speed filtering to avoid spurious AP disconnection upon quick/slightoverspeed due to gust).
Aileron anti-droop (option by pin-programming):4Improvement of Single Aisle A/C landing and RTO performance
using the ailerons as ground spoilers (symmetrical upward deflection) :
Increase of A/C drag Increase of vertical loads on wheels to improve braking performance
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ELAC L83/L91 certification and retrofit status
F/CTL modification will be available for airlines in 2 ELAC4L83 for ELAC A hardware4L91 for ELAC B hardware
Certification dates4End of January 2004 for L834End of March 2004 for L91 (TBC)
A321 retrofit will then start as soon as possible
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Conclusion
Thanks to an extensive Flight test campaign and Fly by Wire Flight Controls, the issue could be identified and solved quickly.
ELAC L83/L91 will remove the OEB for degraded weather conditionsand will provide the same level of handling as on other Single Aisle in normal conditions.
Even with ELAC L83/L91, basic recommendations are unchanged:
Restrict use of rudder in approach to de-crab the A/C
in crosswind (recommendation FCOM bulletin N54/1 Aircraft Handling in final approach)
Extended flight in icing conditions with slats extended
should be avoided (FCOM, Vol 3, supplementary techniques, 3.04.30)
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This document and all information contained herein is the sole property of AIRBUS S.A.S. No intellectual property rights are granted by the delivery of this document or the disclosure of its content. This document shall not be reproduced or disclosed to a third party without the express written consent of AIRBUS S.A.S. This document and its content shall not be used for any purpose other than that for which it is supplied.
The statements made herein do not constitute an offer. They are based on the mentioned assumptions and are expressed in good faith. Where the supporting grounds for these statements are not shown, AIRBUS S.A.S. will be pleased to explain the basis thereof.
AN EADS JOINT COMPANYWITH BAE SYSTEMS
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