Похожие презентации:
Single Aisle CFM HMU delta-P valve seizure
1. Single Aisle CFM HMU delta-P valve seizure
SA CFM HMU delta-P valve seizure - technical status, way forward and ctd airworthiness - EET12 - Ref. PR1208438 - Issue 1Single Aisle CFM HMU delta-P valve seizure
Technical status, way forward and continued airworthiness
Nicolas CONSTANT
Engine Integration Certification and Continued Airworthiness
21st June 2012
2. Agenda
SA CFM HMU delta-P valve seizure - technical status, way forward and ctd airworthiness - EET12 - Ref. PR1208438 - Issue 1Agenda
• History of events
• Technical status and way forward
• Root-cause understanding to date
• Way forward towards root-cause
• Impact on airworthiness and mitigation actions
Risk analysis
On-going depairing at AFL / SDM / SBI ensures no unsafe condition
CFM plan to get all HMUs to below 10kfh within 24 months
EASA Proposed AD 12-035
Summary and recommendations
© AIRBUS Operations S.A.S. All rights reserved. Confidential and proprietary document.
21st June 2012
3. Background - HMU Fuel Metering System
SA CFM HMU delta-P valve seizure - technical status, way forward and ctd airworthiness - EET12 - Ref. PR1208438 - Issue 121st June 2012
Background - HMU Fuel Metering System
• Through the Fuel Metering Valve (FMV) control system, the ECU orders the FMV
to rotate to modify the metered fuel flow to the fuel nozzles
• The Delta-P and by-pass valves ensure that the metered fuel flow is proportional
to the FMV area, by maintaining a constant pressure drop across the valve
• Failure of the Delta-P valve leads to failure of the FMV to regulate fuel flow, and
to engine shut-down
© AIRBUS Operations S.A.S. All rights reserved. Confidential and proprietary document.
4. Technical status - root-cause analysis
SA CFM HMU delta-P valve seizure - technical status, way forward and ctd airworthiness - EET12 - Ref. PR1208438 - Issue 1Technical status - root-cause analysis
• Water induced corrosion builds up on Hydro
Mechanical Unit (HMU) delta-p valve and
provides a rough surface for deposits from fuel
to build up and breach the clearance between the
rotating valve core and valve body
• Valve seizes and the delta p valve can no longer
regulate the pressure drop across Fuel Metering
Valve properly which results in loss of fuel flow
and engine rollback
© AIRBUS Operations S.A.S. All rights reserved. Confidential and proprietary document.
21st June 2012
5. Technical status – HMU delta-P valve investigations
SA CFM HMU delta-P valve seizure - technical status, way forward and ctd airworthiness - EET12 - Ref. PR1208438 - Issue 121st June 2012
Technical status – HMU delta-P valve investigations
Valves received from 12 events
• All valves show sheared or bent drive pin which
is indicative of seized valve
• All valves show corrosion of the nitrided layer
induced by the presence of water
• All valves returned to lab have shown deposit
build up in addition to corrosion
• Lab analysis have evidenced Potassium,
Sodium, Sulphur and Copper in deposits
Event #4 - Aeroflot
Event #8 - Aeroflot
Event #7 -Rossiya
Consistent failure mode – Water induced corrosion
combined with fuel deposits causes valve to seize
© AIRBUS Operations S.A.S. All rights reserved. Confidential and proprietary document.
6. Technical status - fuel sampling results
SA CFM HMU delta-P valve seizure - technical status, way forward and ctd airworthiness - EET12 - Ref. PR1208438 - Issue 121st June 2012
Technical status - fuel sampling results
• GosNIIGA fuel samples from AFL A/C VQ-BBB (event #11) and VP-BQS
Copper levels 3 orders of magnitude higher than normal
100X quantity of K found in right engine; Cadmium on fuel filter element
Gel-like compounds in deposits on filtering elements on right engine
Zinc levels 10X greater than normal
Increased electrical conductivity at 20°C
Extreme thermo-oxidative stability at 260°C
• GosNIIGA have proposed a mechanism for corrosion of the valve exacerbated by the
presence of Copper
• Presence of Copper in high concentration at temperatures of 150-160°C highly increases liberation
of water (H2O) & H2SO4 in higher concentration which in turn induce corrosion to metallic parts. It
also liberate fuel residues contributing to deposits
CFM and Airbus consider that the GosNIIGA reports (25-2012 CS GSM-AV and 31-2012
CS GSM-AV) provide indications of potential fuel contaminants having significant impact on
engine fuel system components
CFM and Airbus recommend that investigations into TS-1 fuel supply chains be launched
as a possible source of those contaminants
© AIRBUS Operations S.A.S. All rights reserved. Confidential and proprietary document.
7. Technical status – way forward
SA CFM HMU delta-P valve seizure - technical status, way forward and ctd airworthiness - EET12 - Ref. PR1208438 - Issue 121st June 2012
Technical status – way forward
• Continue on corrosion mechanism understanding - launched
• Including evaluation of theory proposed by GosNIIGA and supported by fuel samples
• Fuel-wetted A/C and Engine hardware investigations - launched
• Compare hardware from event and non-event aircraft
• Testing with delta-P valve material and good TS-1 - launched
• Purpose is to determine if valve will corrode with good TS-1 sampled from AFL aircraft
• 5 valves in TS-1 fuel, 5 valves in Jet A fuel as a control
• Additional fuel sampling and analysis - launched
• TS-1 fuel to be sampled from Russian airports – other than SVO
• Jet A fuel to be sampled and analysed as a control
• TS-1 fuel supply chain investigations – not launched
• Potential HMU design changes – pending results of definitive root-cause
mechanism
© AIRBUS Operations S.A.S. All rights reserved. Confidential and proprietary document.
8. Continued airworthiness – initial risk analysis
SA CFM HMU delta-P valve seizure - technical status, way forward and ctd airworthiness - EET12 - Ref. PR1208438 - Issue 121st June 2012
Continued airworthiness – initial risk analysis
• Initial risk analysis performed February 2012 on the basis of
• 6 failures at Aeroflot (AFL)
• 2 failures at Rossiya (SDM)
• 1 failure at S7 Airlines (SBI)
• Weibull model is used to determine which aircraft are at risk of
Dual In-Flight Shut-Down (Dual IFSD) on the basis of age of HMU
operating with TS-1 fuel
• It was determined that a number of aircraft fitted with 2 high-time
HMUs were above the EASA IR21 acceptable probability of 1 event
per 10^9 flying hour
• As a result, it was decided to request depairing of aircraft most at
risk at Aeroflot, Rossiya and S7 Airlines (all complete)
• Latest failure events in line with initial risk assessment
© AIRBUS Operations S.A.S. All rights reserved. Confidential and proprietary document.
9. Continued airworthiness - risk analysis ctd
SA CFM HMU delta-P valve seizure - technical status, way forward and ctd airworthiness - EET12 - Ref. PR1208438 - Issue 121st June 2012
Continued airworthiness - risk analysis ctd
• The HMU flying hour of each HMU fitted to AFL, SDM and SBI aircraft is
now regularly monitored to ensure no aircraft is above the EASA
acceptable dual IFSD criteria – exemple for Aeroflot given below
© AIRBUS Operations S.A.S. All rights reserved. Confidential and proprietary document.
10. Continued airworthiness - mitigating actions
SA CFM HMU delta-P valve seizure - technical status, way forward and ctd airworthiness - EET12 - Ref. PR1208438 - Issue 121st June 2012
Continued airworthiness - mitigating actions
• In the light of the current root-cause understanding, regular overhauling
of the HMU every 10000fh is the only means to avoid IFSDs
• Consequently, CFM have up-issued Cat 2 VSB CFM56-5A SB 73-0182
to i8 & CFM56-5B SB 73-0122 to i6 to request overhauling of HMU at
10000fh if operated for more than 50% time on TS-1 within any one year
period (irrespective of TS-1 adherence to spec)
• CFM have provided a consolidated plan to support airlines
operating with TS-1 fuel so that all HMUs are below 10000fh within
24 months
© AIRBUS Operations S.A.S. All rights reserved. Confidential and proprietary document.
11. Continued airworthiness - Airworthiness Directive PAD 12-035 content
SA CFM HMU delta-P valve seizure - technical status, way forward and ctd airworthiness - EET12 - Ref. PR1208438 - Issue 121st June 2012
Continued airworthiness - Airworthiness Directive
PAD 12-035 content
• Requires airlines to determine if the HMU has been exposed to TS-1 for
more than 50% of fuel uploads in the preceding 12 months
• PAD is less restrictive than CFM VSBs: it request TS-1 usage assessment
over the last 12 months only - VSB requests assessment over any one year
period since last HMU overhaul.
• If so, airlines must remove the affected HMU from the engine for cleaning
and inspection, in accordance with CFM Service Bulletin (SB) CFM56-5B
73-0122 i8, or SB CFM56-5A 73-0182 i6, as applicable to engine type
• Compliance time:
© AIRBUS Operations S.A.S. All rights reserved. Confidential and proprietary document.
12. Summary
SA CFM HMU delta-P valve seizure - technical status, way forward and ctd airworthiness - EET12 - Ref. PR1208438 - Issue 121st June 2012
Summary
• Airbus consider that, with the current root-cause understanding,
the actions in place are sufficient to assure Continued
Airworthiness for aircraft operated with mostly TS-1 fuel
• Adequate monitoring by CFM and Airbus of aircraft fitted with hightime HMUs, and proactively depairing when needed
• CFM plan for restoring all HMUs operated with TS-1 fuel below
10000fh within 24 months
• The Proposed EASA Engine AD 12-035 ensures the above plan is
adhered to by airlines operated with TS-1 fuel
• Technical activities towards definitive root-cause and fix are
launched, but this implies investigations into the TS-1 fuel supply
chain as a potential source of contamination; Airbus and CFM
recommend this be launched.
© AIRBUS Operations S.A.S. All rights reserved. Confidential and proprietary document.
13.
SA CFM HMU delta-P valve seizure - technical status, way forward and ctd airworthiness - EET12 - Ref. PR1208438 - Issue 121st June 2012
© AIRBUS Operations S.A.S. All rights reserved. Confidential and proprietary document. This document and all information contained herein is the sole property of AIRBUS Operations 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 Operations 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 Operations S.A.S. will be pleased to explain the basis thereof.
AIRBUS, its logo, A300, A310, A318, A319, A320, A321, A330, A340, A350, A380, A400M are registered trademarks.
© AIRBUS Operations S.A.S. All rights reserved. Confidential and proprietary document.