AIRLINE MAINTENANCE COST EXECUTIVE COMMENTARY An Exclusive Benchmark Analysis (FY2014 data) by IATA’s Maintenance Cost Task Force
MCTF December 2015
PUBLIC
This report contains data and information that is available only to airlines that provided data and, as such, has been removed from this "public" version. To participate in the next Maintenance Cost Task Force (MCTF) data collection, please contact us at
[email protected].
Table of Contents Preliminary Remarks
2
Data & Analysis Methodology
4
Definitions & Acronyms
5
1. Global Picture 1.1. Airline Industry Landscape in 2014 1.2. World Fleet 1.3. Maintenance, Repair & Overhaul (MRO) Market
6 8 11 14
2. FY2013 Snapshot 2.1. Fleet Overview 2.2. Maintenance Cost Analysis 2.2.1. Direct Maintenance Spend 2.2.2. Direct Maintenance Spend by Aircraft Category 2.2.3. Personnel & Overhead 2.3. Aircraft Leasing & Maintenance Reserves 2.4. Spare Parts Inventory
16 18 21 21 24 27 30 34
3. Analysis by Airline Group 3.1. Fleet Overview 3.2. Maintenance Cost Analysis by Airline Group 3.3. Aircraft Leasing & Maintenance Reserves by Airline Group
36 38 40 42
4. Cost Trend Analysis 4.1. Fleet Overview 4.2. Maintenance Cost Overview 4.3. General Trends 4.4. Trend Analysis by Airline Group
46 48 51 56 58
5. Maintenance Cost Trend Analysis by Aircraft Category 5.1. Overview by Aircraft Category 5.2. Narrowbody Aircraft 5.3. Widebody Aircraft 5.4. Regional Jets 5.5. Turboprops
62 64 66 68 70 72
Annex I: MCTF Fleet vs World Fleet
74
Annex II: Staff
75
Annex III: Time Breakdown
76
Annex IV: Fleet Distribution by Aircraft Family and by Group
77
Annex V: Operational Data by Aircraft Category
78
Annex VI: Unit Costs by Airline
79
Preliminary remarks Maintenance Cost Task Force (MCTF) collects maintenance cost data from airlines worldwide on an annual basis. The goals of MCTF are to provide the tools, methodology and definitions to be able to determine how much it costs an airline to maintain its fleet and be able to use the data in cases of new fleet introduction or expansion, “make vs. buy” decisions, year-over-year trends, etc.
02
This report contains data and information that is available only to airlines that provided data and, as such, has been removed from this "public" version. We are doing our maximum to present meaningful analysis and we encourage you to provide feedback on this report so we can improve it again next year.
THE IMPORTANCE OF DATA QUALITY It takes a fair amount of time for MCTF airlines to gather and submit data, and it takes a lot of effort to validate this data in order to deliver the most relevant benchmark analysis. We often need to contact airlines and ask for clarifications when numbers do not meet the quality checks set. For this initiative to remain viable and reliable, it is critical to deal with the best possible data quality. That’s why we would like to remind you of the importance of making sure your data are accurate before submitting it. For that purpose, built-in checks are included in the data collection form (on two tabs: Summary Tables and Summary Graphs) in order to help you get an idea of the main metrics (e.g. maintenance cost per flight hour, per flight cycle or per aircraft). Unscheduled events can cause dramatic impact on
maintenance spend, that is why we need also as many comments to explain unusually high or low costs.
THE IMPORTANCE OF REPORTING OPERATIONAL DATA The focus of MCTF is clearly on maintenance costs but operational data (e.g. flight hours, cycles, ASK, fleet size and fleet age) are very important to calculate unit costs and KPIs. For example, only 25% of MCTF airlines reported ASK in the past four years, preventing us from having a sample statistically large enough to calculate one of the most basic KPIs of the airline industry: CASK (cost per ASK). We would like to draw your attention on the importance of reporting accurate cost data and operational data in order to get the best benchmark data and analysis possible for the benefit of the airline industry and your own airline.
THE IMPORTANCE OF DATA TREATMENT
the airlines through the standardized IATA toolset. No attempt was used to normalize the data based on any parameters such as operational severity (hours to cycle ratio, utilization, harsh environment, etc.), aircraft ageing, fleet size and commonality, labor rate, etc. Additionally, it should be noted that the analysis is done in USD as most of the aircraft parts are marketed in USD; therefore currency exchange rates may play a significant role in benchmarking maintenance costs, especially when substantial foreign exchange fluctuations take place. Finally, the aircraft delivery schedule and the periodicity of the maintenance program can strongly influence costs, especially when many aircraft were delivered within a short period of time.
MCTF data collection is open to all commercial airlines worldwide that would like to benchmark their cost to maintain their fleet. MCTF does not discriminate between IATA and non-IATA member airlines. MCTF does not discriminate between major, domestic, international, low-cost, regional airlines, etc.
THE ACCEPTANCE OF DATA This report analyzes and comments data from 51 airlines. Due to late submission, insufficient data and poor data quality, a few other airlines' data was excluded from the analysis and report.
All the MCTF analyses presented in this report use maintenance cost data as they were provided by
03
Data & Analysis Methodology IATA’s Maintenance Cost Task Force (MCTF) collects maintenance cost data from airlines worldwide on an annual basis. MCTF Airlines are the carriers which participate in the annual data collection. 51 airlines reported data for FY2014, and 23 airlines provided data consistently over the past five years (FY20102014). Airline maintenance cost submitted past the deadline and data that did not pass the quality checks and subsequent questions were excluded from this report. If needed, contributing airlines are contacted to clarify the reported data. The data are then coded (operators are de-identified) and used as reported (i.e. without any normalization) to create this benchmark report. All airline data are consolidated and then analyzed considering aircraft type, fleet and engine size and models, fleet age, maintenance market segments (line, components, engines, heavy checks and MOD) and elements (labor, material, subcontracted work), flight hours, cycles and geography.
04 Data and Analysis Methodology
All data presented in this report are de-identified. The two-digit airline codes shown in this report are unique codes given to the participating airlines for de-identification purposes. Although some of these codes may match real IATA airline codes, this is merely a coincidence. If you do not know your airline’s code, please contact us at
[email protected]. Typical metrics include: cost per flight hour, cost per departure, cost per aircraft. Next year, we plan to expand the benchmark using cost per ASK (metric that relates closer to the financial performance of the airline than the above listed). All cost data unit is US dollar, and length unit is kilometer. The goals of MCTF are to provide the tools, methodology and definitions to be able to determine how much it costs an airline to maintain its fleet and be able to use the data in cases of new fleet introduction or expansion, “make vs. buy” decisions, year-over-year trends, etc.
Definitions & Acronyms AC Aircraft AFTK Available Freight Tonne Kilometers Aircraft Category NB, WB, RJ, TP (defined below) Aircraft Sub-Category NB, WB2, WB3+, RJ, TP (defined below) Aircraft Family Aircraft communalities (e.g. A320 Family includes A318, A319, A320, A321; 737 NG includes 737600 / 700 / 800 / 900) AL Airline APU Auxiliary Power Unit ASK Available-Seat Kilometers Cost Elements Material, labor and outside repairs (or outsourced or subcontracted, used interchangeably) Cost Segments Line, base, component and engine maintenance
Currency All amounts in this report are in US$, unless specified otherwise. Utilization Number of flight hours per aircraft per day (= FH / AC / 365 days) DMC Direct Maintenance Costs ESV Engine Shop Visit FC Flight Cycle FH Flight Hour FLF Freight Load Factor FTK Freight Tonne Kilometers LG Landing Gear LLP Life Limited Part MCTF Maintenance Cost Task Force MENA Middle East & North Africa
MR Maintenance Reserves
purchased to do work in-house
MTBR Mean Time Between Removals
Total Maintenance Costs DMC plus overhead costs
NB Narrow-body single aisle aircraft with more than 100 seats (excludes Embraer 190 / 195) PLF Passenger Load Factor Regions Africa (Sub-Saharan Africa), ASPAC (Asia Pacific), MENA (Middle East & North Africa), Americas (North & South America), Europe (includes CIS), N. Asia (China, Hong Kong, Macao, Taiwan, Mongolia) RJ Regional Jets up to 100 seats (includes Embraer 190 / 195) RPK Revenue-Passenger Kilometers
TP Turboprops TR Thrust Reversers Units K ($#,000) Thousand M ($#,000,000) Million B ($#,000,000,000) Billion WB Widebody aircraft with more than one aisle or equivalent freighter, combination of WB2 and WB3+ WB2 Widebody aircraft equipped with two engines WB3+ Widebody aircraft equipped with three or more engines
Supply Chain Includes all maintenance activities performed by third party (also called “contract maintenance” or “outsourcing”) and the cost of material
Definitions and Acronyms 05
1 Global Picture This section provides some context to the MCTF analyses in other sections by presenting an overview of the airline industry, the world fleet count and the Maintenance, Repair and Overhaul (MRO) market for 2014. The industry performed better in 2014, with a net post-tax profit of $19.9 billion, compared to $10.6 billion in 2013. In 2014, the world fleet count was 24,597 aircraft, with 76% of the fleet manufactured by Boeing or Airbus. Globally, airlines spent $62.1 billion on MRO, representing around 9% of total operational costs. Global Picture 07
1.1. Airline Industry Landscape in 2014
RPKs between regions of the world grew at an accelerated rate in 2014, expanding by 6% compared to 5.4% in 2013. The pick-up in the growth trend reflects increasing demand through improvements in the global economic backdrop.
14.7
6.1
Fig. 2: Jet Fuel Price per Barrel Annual average Source: IATA WATS 2015
2009
126.7
71.4
81.9
127.5
129.6
124.5
114.8
91.4
90 70.9
49.7
08 Global Picture
2014
2013
2012
2011
2010
2009
2008
2007
2006
2005
2004
$ / BARREL
2014
-4.6 2010
-26.1
10.6
8.3
2008
2002
2001
-4.1 2007
-5.6
2006
-7.5
2005
-11.3
2004
-13
2000
$B / YEAR
5
2003
3.7
19.9
17.3
2013
Fig. 1: Industry Net Profits Source: IATA WATS 2015
Passenger ancillary revenues continued to play an increasing role in the industry. Revenues from addedvalue services improved from $42.6 billion in 2013 to $49.9 billion in 2014, or more than $15 per passenger.
2012
Collectively, the airlines had a net post-tax profit of $19.9 billion (Fig. 1), a 2.7% margin on revenues. This improves on the 2013 results of $10.6 billion profit (1.6% margin). The improvement was achieved through a combination of improving global economic conditions, which supported stronger growth in passenger and air freight demand. Lower fuel costs also helped, but due to hedging, some airlines have experienced a delay in seeing the benefits of the fall in fuel prices. Jet fuel prices fell significantly during 2014, starting the year at $130 per barrel and finishing it at $75 per barrel.
The average for the year was $114.8 / bbl, 6% lower than the 2013 average price of $124.5 / bbl (Fig. 2). However, the strengthening of the US$ over other world currencies does not allow all airlines to benefit from the lower fuel prices (or other costs, e.g. aircraft leasing, maintenance) denominated in US$.
2011
Aviation has an immeasurable impact on the world we live in, connecting people and cultures, creating opportunities and facilitating economic progress. 2014 was a relatively strong year for the airline industry.
Even so, airlines have continued with disciplined capacity management. The growth in available seat kilometers (ASK) has been 6.4%, only slightly stronger than the expansion in RPKs (Fig. 3). More than 32.5 million scheduled flight services were provided in 2014, a 2.2% increase on the previous year. Correspondingly, the number of seats rose 4.7% to 4.4 million. Passenger load factors remained close to 2013’s record high at 80%. This is the result of an increase in passenger volumes, coupled with disciplined capacity management, particularly in mature markets like the US domestic and the North Atlantic.
prices and the positive impact of increasing ancillary revenues on yields. In addition, consolidation and capacity management boosted load factors achieved. Cargo markets showed solid improvement in 2014. The cyclical upturn in the global economy helped boost confidence and international trade, and support stronger demand in air freight.
Sources: IATA WATS (2015)
Break-even load factors came down even further in 2014 (63.7% vs 64.5% in 2013) because of lower fuel
09
Fig. 3: RPK Growth by Route Area Source: IATA WATS 2015
MIDDLE EAST–N. AMERICA
2014 2013 2012
CENTRAL–SOUTH AMERICA
9.6%
16.9%
2011
EUROPE–MIDDLE EAST
9.5% 11.3% 9%
WITHIN FAR EAST
5.1%
8.8% 10.7% 6.7%
EUROPE–NORTH AMERICA 0.5%
AFRICA–FAR EAST
2.6% 2.6% 4.1%
1.2%
10.7% 11%
-4.7%
AFRICA–EUROPE
0.4% -1.9% -7.9%
TOTAL INDUSTRY
10 Global Picture
32.3%
15.7% 18.1% 14.6%
6%
6.1% 5.4% 6% 7.3%
13.5%
24.3% 22.1%
1.2. World Fleet In FY2014, the world fleet count was 24,597 aircraft*. 76% of this fleet was manufactured by Boeing or Airbus. In the last decade, airlines introduced 6,665
8.1% Embraer 9.8% Bombardier (inclu. DHC)
31.3% Airbus
aircraft to their fleet, broken down as follows: 56% NB, 18% RJ, 16% WB and 11% TP. TPs include only ATR42 / 72 and Q300 / 400.
3.7% ATR
0.8% BAe
0.8% Fokker 0.6% Others
44.9% Boeing (including MD)
7% MENA 8% TP
56% NB
Fig. 6: World Fleet Number of Aircraft by Region (2014) Source: ACAS3 (July 2015)
38% Americas
15% ASPAC 25% Europe Fig. 5
Africa: Sub-Saharan Africa ASPAC: Asia Pacific
Fig. 5: World Fleet Number of Aircraft by Aircraft Category (2014) Source: ACAS3 (July 2015)
3% Africa
12% North Asia
16% RJ 20% WB
Fig. 4: World Fleet Number of Aircraft by Manufacturer (2014) Source: ACAS3 (July 2015)
MENA: Middle East North Africa
Fig. 6
Americas: North & South America Europe: includes CIS
N. Asia: China, Hong Kong, Macao, Taiwan, Mongolia
* Excludes all non-western built aircraft
Global Picture 11
Fig. 7: Popular Aircraft Families (2014) Source: ACAS3 (July 2015)
A320 FAMILY
5,880 5,054
737 NG
1,234
777
1,092
A330
982
737 CLASSIC 767 757
808 791
Most popular aircraft are the Airbus A320s. However, if 737 Classics and NGs are combined, the Boeing 737s have a very narrow lead. Fig. 8: World Fleet Statistics (2004-2014) Source: ACAS3 (July 2015)
FH / AC, FC / AC
Utilization
3,000
FC / AC
2,500
FH / AC
2,000
2,842 2,624
12 11
1,557
1,463
7.19
7.79
8
500
7
0
6 2004
12 Global Picture
10 9
1,500 1,000
Utilization (Hours / Day)
2005
2006
2007
2008
2009
2010
2011
2012
2013
2014
Tables 1-1b: Airline Financial Monitor Source: IATA Economics (Feb 2015)
T. 1: Jan 2015 vs Jan 2014
RPK
ASK
PLF
FTK
AFTK
FLF
AFRICA
-0.9%
0.4%
68.1%
5.2%
2.4%
27.8%
ASIA / PACIFIC
4.2%
5%
76.8%
6.9%
5.4%
51.7%
EUROPE
4.9%
4.3%
76.6%
-1.2%
3.6%
43.4%
LATIN AMERICA
5.6%
4%
81.9%
-6.4%
-2%
36.5%
10.8%
12.6%
80%
9.2%
18.1%
38.6%
NORTH AMERICA
2.6%
4.4%
79.4%
-1%
-2.8%
35%
TOTAL MARKET
4.6%
5.2%
77.7%
3.2%
4.1%
42.8%
RPK
ASK
PLF
FTK
AFTK
FLF
AFRICA
0.3%
2.5%
68.4%
6.7%
0.9%
30.7%
ASIA / PACIFIC
7.1%
7.5%
77.2%
5.4%
5.7%
55.4%
EUROPE
5.8%
5.2%
80.8%
2%
3%
46.9%
LATIN AMERICA
6.4%
4.1%
79.8%
0.1%
0.3%
41.8%
12.6%
11.5%
78.4%
11%
11.1%
44.5%
NORTH AMERICA
2.7%
2.4%
83.6%
2.4%
-0.5%
35.3%
TOTAL MARKET
5,9%
5.6%
79.7%
4.5%
3.7%
45.7%
MIDDLE EAST
T. 1b: 2014 vs 2013:
MIDDLE EAST
PLF increased from 79.5% in 2013 to 79.7% in 2014. The average utilization in 2014 was 7.79 hours per day, a 0.3% decrease vs 2013, and an 8.3% increase
vs 2004. All figures in the tables are expressed in % change year on year, except for PLF and FLF which are the load factors for the specific month.
Global Picture 13
1.3. Maintenance, Repair and Overhaul (MRO) Market Global MRO spend in 2014 was valued at $62.1 billion, excluding overhead. This represented around 9% of total operational costs.
With a 3.8% increase per annum, the market size is estimated to reach $90 billion in 2024.
Fig. 9: World MRO Spend by Segment (2014) Source: ICF International Global MRO Forecast 17% Line 40% Engines
21% Base 22% Comp
Fig. 10: World MRO Spend by region (2014) Source: ICF International Global MRO Forecast
7% MENA
4% Africa 35% Americas
27% Europe 27% Asia
14 Global Picture
40%
40%
22%
21%
23%
17%
20%
17%
LINE
BASE
ENGINE
LINE
BASE
COMP
2024 $90B ENGINE
2014 $62.1B
COMP
Fig. 11: World MRO Market Forecast (2014-2024) Source: ICF International Global MRO Forecast
DEVELOPING TRENDS AND TECHNOLOGIES IN MAINTENANCE
These innovations are estimated to decrease MRO spending by 15 to 20% but first, the market needs to innovate with a clear vision and strategy.
• Aircraft health monitoring systems and big data:
It is critical to identify opportunities and isolate the most promising ones, then develop an innovation process to transform these opportunities into pilot projects and market roll-outs.
e-aircraft are constantly monitoring and transmitting faults and warnings for a more dynamic planning and check scheduling • New technologies: mobile devices, wearables
(e.g. Google Glass) and real-time video transmission for front-line support, e-logbooks for paperless operations, drones and/or sensors for remote inspections • Predictive maintenance is estimated to increase
aircraft availability by up to 35%
Sources: IATA Economics (June 2015) IATA Airline Cost Management Group (August 2015) ICF International Global MRO Forecast (Jan 2015)
• Composite repair capabilities • Additive manufacturing (3-D printing) is continuously
growing, reducing lead times, increasing part availa- bility, optimizing parts and saving weight.
Global Picture 15
2 FY2014 Snapshot — 51 Airlines This section provides the overview of FY2014 data reported by 51 airlines worldwide. The MCTF airlines operated 4,216 aircraft in 2014, of which more than 85% were Boeing and Airbus aircraft. Technical Division spend totaled $17.6 billion of which $15 billion was Direct Maintenance Cost and $2.5 billion for Overhead.
FY2014 Snapshot - 51 Airlines 17
2.1. Fleet Overview In FY2014, the MCTF fleet had 4,216 aircraft, which represented 17% of the world’s fleet.
Table 2: Fleet Distribution by Region (FY2014 - 51 Airlines)
N. ASIA China, Hong Kong, Macao, Taiwan and Mongolia AL 4 (8%) AC 286 (7%) AGE 8.7 UTIL 9.0
EUROPE (includes CIS) AL 17 (33%) AC 669 (16%) AGE 10.1 UTIL 8.8
AL: Airline AC: Aircraft Age: Average Fleet Age (years) Util: Utilization (Hours / Day)
AMERICAS: North & South America AL 9 (18%) AC 1,601 (38%) AGE 10.3 UTIL 8.7
ASPAC Asia Pacific AFRICA Sub-Saharan Africa AL 4 (8%) AC 81 (2%) AGE 10.0 UTIL 8.2
The MCTF airline fleet size ranged from 1 to 630 aircraft with an average fleet age of 9.5 years. They flew a total of 13.5 million flight hours and
18 FY2014 Snapshot - 51 Airlines
MENA Middle East & North Africa AL 6 (12%) AC 467 (11%) AGE 6.9 UTIL 10.3
AL 11 (22%) AC 1.112 (26%) AGE 9.1 UTIL 9.1
5.6 million flight cycles. 13 airlines operated both passenger and freighter aircraft, 1 airline operated freighters only.
87 A / C 2.1%
Fig. 12: Fleet Distribution by Manufacturer (FY2014 — 51 Airlines)
20 A / C 0.5% 2 A / C 0.05%
95 A / C 2.3%
Boeing Airbus
372 A / C 8.8%
Embraer ATR 2,223 A / C 52.7%
1,418 A / C 33.6%
Bombardier BAe Fokker
Fig. 13: Fleet Distribution by Aircraft Category (FY2014 —51 Airlines)
182 A / C 244 A / C 4% 6%
NB 394 A / C 9%
WB2 RJ 2,110 A / C 50%
WB3+
1,287 A / C 31%
Boeing (including McDonnell-Douglas) and Airbus are overrepresented in MCTF fleet. They account for 86% of MCTF fleet vs 76% of worldwide fleet. On the contrary, Bombardier and ATR have a combined share of 4.3% of MCTF fleet vs 13.5% worldwide. (Fig. 12). More details on MCTF fleet vs Worldwide Fleet in Annex I. As shown in Fig. 13, narrowbody aircraft (NB) were the most popular aircraft (50% of 51 MCTF airlines'
TP
fleet) with 3,098 flight hours per aircraft and 1,555 flight cycles per aircraft on average. In 2014, widebody aircraft represented 36% of the fleet with an average age of 10.4 years (vs. 9.8 years for NB). Each widebody aircraft (WB) flew on average 3,867 hours and performed 802 cycles (Table 3). Regional (RJ) and Turboprop (TP) fleets are underrepresented in the MCTF analysis because reporting carriers mostly have larger aircraft.
FY2014 Snapshot - 51 Airlines 19
Fig. 14: Fleet Demographics (FY2014 —51 Airlines)
AIRCRAFT 1,000
Airlines
900
Aircraft
800
AIRLINES
28
30 25
22
700 600
20
16
14
500
15
11
400
10
10
9
11 8
300
5
200
10
7
5
4
4
100 0
20 FY2014 Snapshot - 51 Airlines
B747-8
EMB170/175
B787
Q400
A380
ATR72
A340
B747/400
B737 CLASSIC
B767
A330
EMB190/195
B777
B737 NG
A320 FAMILY
0
MCTF airlines operated 26 different aircraft families in 2014. Figure 14 represents only the Top 15 aircraft families with a minimum of 3 operators and 5 aircraft, and a total of 3,856 aircraft (91% of MCTF total fleet). Some populous aircraft types have been removed
Table 3: Operational Data by Aircraft Category (FY2014 —51 Airlines)
5
because they did not meet the ‘3 operators / 5 aircraft’ rule. The rest of the fleet (not shown here) is mostly composed of mature to old fleet types that will be retired in a near future.
Aircraft
Airlines
Avg Age
Utilization
FH / AC
FC / AC
FH / FC
NB
2,110 A / C
44
9.8
8.5
3,098
1,555
2.0
WB2
1,287 A / C
33
10.4
10.6
3,863
837
4.6
RJ
394 A / C
14
6.2
7.1
2,607
1,878
1.4
W B3+
244 A / C
11
10.1
10.7
3,890
620
6.3
TP
182 A / C
14
5.3
5.5
2,015
2,002
1.0
2.2. Maintenance Cost Analysis In FY2014, MCTF airlines reported a total of $17.6 billion for their Technical Division spend: this is $15 billion for Direct Maintenance Cost (reported by 48 airlines) and $2.5 billion for Overhead (reported by 41 airlines). $15 billion represent almost 24% of the world MRO spend for 17% of the world fleet. This may be explained by the fact that MCTF fleet is skewed
towards higher gauge aircraft (36% WB in MCTF fleet vs 20% in world fleet). They employed a total of 30,064 mechanics (reported by 29 airlines) and 18,276 OH staff (reported by 43 airlines). Staffing and overhead (OH) are analyzed separately in Section 2.2.3.
2.2.1. Direct Maintenance Spend The 51 MCTF airlines reported $15 billion for their direct maintenance costs, the average maintenance cost was $295 million per airline, $1,087 per flight hour, $2,681 per flight cycle and $3.6 million per aircraft.
Average
Minimum Maximum
Cost / Airline
$295M $0.95M $2.2B
Cost / Flight Hour
$1,087 $287 $2,841
Cost / Flight Cycle
$2,681
$3.6M $0.67M $9.3M
Cost / Aircraft
Table 4: Direct Maintenance Cost - Unit Costs (FY2014 — 51 Airlines)
$465
$11,937
Fig. 15: Evolution of Direct Maintenance Cost Structure by Segment (FY2010 & FY2014) ENGINE 38%
COMPONENT 23%
LINE 19%
LINE 22%
ENGINE 39%
BASE 15%
BASE 20% 2010 $9.7B (43 airlines)
COMPONENT 24%
2014 $15B (51 airlines)
FY2014 Snapshot - 51 Airlines 21
Engine remains the highest cost segment with 39% of maintenance costs (Fig. 15). Over the past five year, base maintenance has decreased from 20% to 15%. Fig. 16: Evolution of Direct Maintenance Cost Structure by Segment (FY2010 & FY2014)
LABOR $ 17%
LABOR $ 24%
MATERIAL $ 22%
MATERIAL $ 15%
SUBC $ 54%
SUB $ 68% 2010 $9.7B (43 airlines)
Contract maintenance (indicated as ‘SubC’ for subcontracted) continued to grow and reached a new high with 68% of total direct maintenance spend (Fig. 16); 13 airlines indicated that they subcontracted all their maintenance activities (Fig. 17).
Fig. 17: DMC by Airline Subcontracted vs Labor + Material (FY2014 — 51 Airlines) Sub Contracted $ Labor + Material $
2014 $15B (51 airlines)
As shown in Figure18, the majority of airlines continue subcontract the entirety of their engine work as shown. 0% mostly reflects the absence of any engine overhaul for FY2014.
100%
AVG 68.6% 50%
CL AT 23 SG GC RC LL UH EY CB 3F U2 J9 1E ZY JA BG ID 77 1Q HF AG 2G RP 5Y WW Q9 F1 XH DD R9 C3 MD PP 4W SL 0S QW MB CC PM SP NN MC G4 DB 7U RA NY 4A T9
0%
22 FY2014 Snapshot - 51 Airlines
Fig. 18: Engine Maintenance Costs by Airline - Subcontracted vs Labor + Material (FY2014 — 51 Airlines)
100% AVG 87%
Eng Sub Contracted % Eng Labor + Material %
50%
Q9 AG CL AT MC G4 PM T9 C3 R9 2G 23 JA F1 SP SG 1E MB BG GC RC ZY LL XH NN EY RP 1Q PP ID CB 3F 0S U2 J9 77 WW MD QW NY CC SL 5Y 7U RA DB 4W 4A DD
0%
Fig. 19: Line Maintenance Costs by Airline - Labor + Material vs Subcontracted (FY2014 — 51 Airlines)
100%
Line Labor + Material % AVG 66%
Line Sub Contracted %
50%
Q9 AG T9 BG 4A WW 2G NN MB PM NY JA 7U G4 DB CC RA F1 QW ZY 1E 1Q XH 0S MC C3 ID SP MD 77 R9 PP SL DD 5Y HF RP CL AT 23 SG 4W GC RC LL UH EY CB 3F U2 J9
0%
Figure 19 shows that, although most airlines keep line maintenance in-house, an increasing number is contracting out the work.
FY2014 Snapshot - 51 Airlines 23
2.2.2. Direct Maintenance Spend by Aircraft Category
Fig. 20: Unit Costs by Aircraft Category (FY2014 — 51 Airlines)
This part of the report is only available to participating airlines
Table 5: Fleet Count vs Maintenance Costs by Aircraft Category (FY2014 — 51 Airlines)
This part of the report is only available to participating airlines
24
Table 6: Unit Costs and Operational Data by Aircraft Category (FY2014 — 51 Airlines)
This part of the report is only available to participating airlines
Fig. 21: Evolution of $ / FH by Aircraft Family (2011-2014 — 27 Airlines)
This part of the report is only available to participating airlines
FY2014 Snapshot - 51 Airlines 25
Table 7: Operational Data by Aircraft Family (FY2014 — 23 Airlines)
This part of the report is only available to participating airlines
This part of the report is only available to participating airlines
26
2.2.3. Personnel & Overhead For a better understanding of Technical Division’s costs, it is important to consider not only the direct maintenance cost but also the personnel and overhead (P&O) data. For FY2014, 41 airlines provided P&O data, at different levels of completion. This section presents some benchmarks based on the available data.
This part of the report is only available to participating airlines
Fig. 22: Technical Division Cost Breakdown (FY2014 — 41 Airlines)
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Fig. 23: Technical Division Staff by categories in 2015 (FY2014)
FY2014 Snapshot - 51 Airlines 27
Fig. 24: Technical Division Cost Breakdown (FY2014 — 41 Airlines)
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Fig. 25: Number of mechanics per Aircraft vs % DMC SubContracted (FY2014 — 27 Airlines)
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28 FY2014 Snapshot - 51 Airlines
Fig. 26: Technical Division Staff (FY2014 — 27 Airlines)
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Fig. 27: Direct Labor Time Breakdown (FY2014 — 28 Airlines)
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FY2014 Snapshot - 51 Airlines 29
2.3. Aircraft Leasing & Maintenance Reserves (Supplemental Lease) Over the years, the share of aircraft under operational lease has stabilized around 40% of the world fleet. (Fig. 28)
Fig. 29: Airline Fleet Size and % of Leased Aircraft per Airline (FY2014 — 51 Airlines)
100%
50% AVG 42%
0%
30 FY2014 Snapshot - 51 Airlines
41%
40%
40%
39%
39%
2014
41%
2013
41%
2012
40%
2011
39%
2010
2009
2008
2007
2006
2003
2002
34%
2001
2000
32%
37%
38%
2005
36%
38%
2004
Fig. 28: % of World Fleet under Operating Lease Source: SGI Aviation / Ascend, 2014
Fig. 30: % of Leased Aircraft by Region (FY2014 — 47 Airlines)
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Fig. 31: % of Leased Aircraft by Aircraft Category (FY2014 — 47 Airlines)
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FY2014 Snapshot - 51 Airlines 31
Fig. 32: Aircraft under Ops Lease by Aircraft Family (FY2014 - 1,629 Aircraft)
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32 FY2014 Snapshot - 51 Airlines
This part of the report is only available to participating airlines Fig. 33: Breakdown of Maintenance Reserves paid to Lessors (FY2014 — 28 Airlines)
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Fig. 34: Maintenance Reserves paid by Type and by Airline (FY2014 — 28 Airlines)
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FY2014 Snapshot - 51 Airlines 33
2.4. Spare Parts Inventory The level of spares and inventory that an airline keeps can have a positive impact on its operations in terms of aircraft availability and on-time performance. However, it is also money that is not invested and cannot be used/accessed by the airline easily.
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Fig. 35: Inventory $ vs Direct Maintenance Cost $ (FY2014 — 39 Airlines)
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Fig. 36: Number of Airlines reporting Spares & Inventory by Region (FY2014 — 39 Airlines)
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34 FY2014 Snapshot - 51 Airlines
Fig. 37: Spares & Inventory by Category (FY2014 — 39 Airlines)
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Fig. 38: Spares & Inventory per Aircraft by Region (FY2014 — 39 Airlines)
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FY2014 Snapshot - 51 Airlines 35
36 FY2014 Snapshot - 51 Airlines
3 Analysis by Airline Group This section of the report presents a maintenance cost analysis of airlines with similar fleet sizes. Group One consists of airlines with a fleet size of up to 50 aircraft. Group Two airlines have a fleet size between 51 and 100. The airlines with fleet of over 101 aircraft form Group Three. In addition to a fleet analysis and maintenance cost analysis, this section also analyzes aircraft leasing and maintenance reserves.
Analysis by Airline Group 37
3.1. Fleet Overview The 51 participating airlines were grouped by similar fleet sizes. Group One consists of airlines with a fleet size of up to 50 aircraft. Group Two airlines have a fleet size between 51 and 100. The airlines with fleet of over 101 aircraft form Group Three. Table 8 gives an overview of the unit costs and operational data for each Airline Group.
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Table 8: Operational and Unit Cost Data by Airline Group (FY2014 — 51 Airlines)
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Fig. 39: Fleet Distribution by Aircraft Category and by Airline Group (FY2014 —51 Airlines)
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38 Analysis by Airline Group
Fig. 40: Fleet Distribution by Manufacturer and by Airline Group (FY2014 —51 Airlines)
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Analysis by Airline Group 39
3.2 Maintenance Cost Analysis By Airline Group
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Fig. 41: Direct Maintenance Cost by Airline Group; cost percent of each group related to total maintenance cost (FY2014 —51 Airlines)
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40 Analysis by Airline Group
Table 9: Minimum and Maximum Unit Cost by Airline Group (FY2014 —51 Airlines)
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Table 10: Direct Maintenance Cost by Aircraft Category and by Airline Group (FY2014 —51 Airlines)
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Table 11: Direct Maintenance Cost by Market Element and by Airline Group (FY2014 —51 Airlines)
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Table 12: Direct Maintenance Cost by Segment and by Airline Group (FY2014 —51 Airlines)
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Analysis by Airline Group 41
3.3. Aircraft Leasing and Maintenance Reserves By Airline Group
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42
Fig. 42: Group One % of Leased Aircraft by A / C Category (FY2014 — 24 Airlines)
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Fig. 43: Group One % of Leased Aircraft by Region (FY2014 — 24 Airlines)
Fig. 44: Group Two % of Leased Aircraft by A / C Category (FY2014 — 13 Airlines)
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Analysis by Airline Group 43
Fig. 45: Group Two % of Leased Aircraft by Region (FY2014 — 13 Airlines)
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Fig. 46: Group Three % of Leased Aircraft by A / C Category (FY2014 — 14 Airlines)
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Fig. 47: Group Three % of Leased Aircraft by Region (FY2014 — 14 Airlines)
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44 Analysis by Airline Group
45
46 Trend Analysis (FY2010-2014) - 23 MCTF Airlines
4 Trend Analysis (FY2010 - 2014), 23 MCTF Airlines This section presents a 5-year trend analysis for airlines that have been consistently submitting data to MCTF. Out of 51 airlines, we have data from 23 airlines and we hope to continue progressing to be able to perform a trend analysis over a period of six years (one full maintenance cycle). From 2010 to 2014, the fleet size grew 21% and direct maintenance costs increased 42%. Cost per flight hour increased 12%, cost per cycle increased 21% and cost per aircraft increased 17% over the last five years.
Trend Analysis (FY2010-2014) - 23 MCTF Airlines 47
4.1. Fleet Overview The 23 airlines that consistently participated in MCTF reported a total of 1,914 active aircraft (8% of world fleet). Their fleet grew 21% in five years; Fig. 48: Total Number of Aircraft (23 Airlines) +21% (2014 vs 2010)
some of the increase is due to airline mergers. The average fleet size per airline went from 69 aircraft in 2010 to 83 in 2014 (20.2% increase).
AIRCRAFT 2,000
1,500
1,649
1,582 + 4.2%
+ 6.1%
+ 2.3%
+ 7%
1,914
1,804
1,764
1,000
500
Fig. 49: Fleet Distribution By Aircraft Category (23 Airlines)
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48 Trend Analysis (FY2010-2014) - 23 MCTF Airlines
2014
2013
2012
2011
2010
0
Fig. 50: Fleet Distribution by Manufacturer (23 Airlines)
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Fig. 51: Evolution of Fleet Size by Category (23 Airlines)
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Trend Analysis (FY2010-2014) - 23 MCTF Airlines 49
Fig. 52: Evolution of Fleet Size by Manufacturer (23 Airlines)
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50
4.2. Maintenance Cost Overview In FY2014, direct maintenance costs for the 23 airlines reached $8.18 billion, this was 55% of the total amount reported by the MCTF airline pool.
Over the past five years, there was a 42% increase (Fig. 53). The large increase between 2010 and 2011 is attributed to airline mergers.
DMC B$
2014
2013
2011
+ 14.5%
+42% (2014 vs 2010)
+ 12.1%
+ 4.2%
+ 5.9%
2012
5.7
2010
6.9
6.5
8.1
7.2
Fig. 53: Evolution of Maintenance Costs (23 Airlines)
Along with the growing fleet size, the average total DMC per airline grew from $247 million to $350 million in 5 years. Fig. 54: Evolution of Direct Maintenance Unit Costs (23 Airlines)
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Trend Analysis (FY2010-2014) - 23 MCTF Airlines 51
Fig. 55: Direct Maintenance Cost / FH by Segment (23 Airlines)
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Fig. 56: Direct Maintenance Costs / FH by Element (23 Airlines)
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52 Trend Analysis (FY2010-2014) - 23 MCTF Airlines
Fig. 57: Line Maintenance Cost / FH by Element (23 Airlines)
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Fig. 58: Base Maintenance Cost / FH by Element (23 Airlines)
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Trend Analysis (FY2010-2014) - 23 MCTF Airlines 53
Fig. 59: Component Maintenance Cost per FH by Element (23 Airlines)
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Fig. 60: Engine Maintenance Cost / FH by Element (23 Airlines)
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54 Trend Analysis (FY2010-2014) - 23 MCTF Airlines
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55
4.3. General Trends The graphs below present general trends in terms of operational data (fleet size, average age, flight hours and cycles, etc.) and unit costs (maintenance cost per FH, per FC and per AC) for FY2010 to 2014.
AIRCRAFT+21% 2014 vs 2010
AVG AGE -5.3% 2014 vs 2010
56 Trend Analysis (FY2010-2014) - 23 MCTF Airlines
2.48 + 0.7%
+ 1.9%
+4%
2010
2011
2012
2013
2014
3,420
1,364
1,381
1,381
2011
- 2.4%
+ 0%
+ 1.2%
2014
- 1.7%
2013
+ 0.7%
2014
2012
2.46
FC / AC -2.8% 2014 vs 2010 1,421 1,398
2010
3,396
+ 3.2%
+ 1.5%
2011
2010
- 0.5%
3,291
2013
3,243
2014
2011
2.32
2.29
2014
2013
2012
2011
2010
3,259
2.41
FH / FC RATIO +8.3% 2014 vs 2010
+ 1.2%
FH / AC +4.9% 2014 vs 2010
8.15
2013
+ 0.5%
+ 3.4%
+ 1.5%
- 1.5%
+ 1.3%
2012
- 0.5%
9.37
9.33
9.02
8.88
8.27
8.17 - 1.5%
2012
8.93
8.29 - 3.8%
2010
2012
2011
2010
UTILIZATION +4.9% 2014 vs 2010
8.61
+ 6.1%
+ 2.3%
+ 7%
+ 4.2%
2014
1,649
1,582
1,914
1,804
1,764
2013
Fig. 61: General Trends (FY2010 - 2014) 23 Airlines
2014 2014
+ 5.8%
+ 1.9%
2013
2011
2010
2014
2013
2014
2011
2014
2013
2012
+ 6.1%
+ 2.3%
+ 7%
+ 4.2%
83
78
77
72
69
2013
+ 12.1%
2010
2011
4.21
350
313 + 4.2%
+ 5.9%
2011
3.98
AIRCRAFT / AL +20.3% 2014 vs 2010 300
283
3.91
2012
- 1.0%
+9.9%
+ 14.5%
2010
3.95
3.59
+ 5.7%
DMC $ / AL +41.7% 2014 vs 2010
247
2011
3,048
2,885
+ 0.6%
+ 1.5%
+ 11.7%
2010
2,866
2012
2,825
+ 4.9%
DMC $ / AC +17.3% 2014 vs 2010
2012
2,528
- 1.2%
1,231
1,173
2013
DMC $ / FC +20.6% 2014 vs 2010
2010
2011
2010
2013
+ 5.9%
+ 14%
2012
5.7
1,188
- 2.5%
+ 10.4%
+ 12.1%
+ 4.2%
2014
6.9
6.5
8.1
7.2
DMC $ / FH +11.5% 2014 vs 2010 1,218 1,103
2012
DMC $B +42.1% 2014 vs 2010
Trend Analysis (FY2010-2014) - 23 MCTF Airlines 57
4.4. Trend Analysis By Airline Group In total, 23 airlines have submitted their data consistently for the past 5 years, allowing us to perform trend analysis for each group between 2010 and 2014. During this period, the number of Group One airlines decreased from13 in 2010 to10 in 2014. Conversely, the number of Group Two and Group
80%
Medium
70%
Small
60%
13
12
5
6
5
5
11
12
5
4
7
7
7
2014
Large
2013
AIRLINES 100%
2012
Fig. 62: Airline Group Distribution (FY2010 - FY2014)
Three airlines increased, from 5 to 6 and from 5 to 7 respectively. This trend is also reflected in the fleet size between 2010 and 2014 (Fig. 63). The increase in fleet size could be due to mergers and acquisitions or more aircraft entering than leaving airline fleets.
10
50% 40% 30%
6
20% 10%
2011
2010
0%
Fig. 63: Airline Group Fleet Size (FY2010 - FY2014)
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58 Trend Analysis (FY2010-2014) - 23 MCTF Airlines
This part of the report is only available to participating airlines Fig. 64: Direct Maintenance Unit Cost for Group One Airlines (FY2010 - FY2014)
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Table 13: Operational Data Group One Airlines (FY2010 - FY2014)
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Trend Analysis (FY2010-2014) - 23 MCTF Airlines 59
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Fig. 65: Direct Maintenance Unit Cost for Group Two Airlines (FY2010 - FY2014) $ / FH $ / FC $ / AC
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Table 14: Operational Data Group Two Airlines (FY2010 - FY2014)
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60 Trend Analysis (FY2010-2014) - 23 MCTF Airlines
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Fig. 66: Direct Maintenance Unit Cost for Group Three Airlines (FY2010 - FY2014) $ / FH $ / FC
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$ / AC
Table 15: Operational Data Group Three Airlines (FY2010 - FY2014)
Table 16: Widebody Aircraft for Airline Groups (FY2010 - FY2014)
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Trend Analysis (FY2010-2014) - 23 MCTF Airlines 61
5 Maintenance Costs Trend Analysis by Aircraft Category (FY2010 - 2014 — 23 Airlines) This section presents a trend analysis of maintenance costs by aircraft category for the 23 consistent airlines in MCTF. Over the last five years, these airlines had increases in all aircraft categories with the exception of turboprops, which declined 23%. Maintenance unit costs display an increasing trend for most aircraft categories.
Maintenance Costs Trend Analysis by Aircraft Category (FY2010-2014 - 23 Airlines) 63
5.1. Overview by Aircraft Category This section gives an overview of all the aircraft categories. Over the last five years, NB and WB2 fleets had the strongest increases, respectively +30% and Fig. 67: Evolution of Fleet Size by AC Category (23 Airlines) WB3+
AIRCRAFT 1,000
862
WB2
719
797
775
665
TP
580
NB RJ
+25% WB3+ and RJ were on a steady but slower progression with +12% and +15%. On the contrary, TPs have been less and less popular (-23%) among the MCTF airlines that contributed data on a consistent basis (Fig. 67).
628
631
669
137
143
537 500
128
121 120
0
133 2010
124 115
115 2011
126 111 2012
Fig. 68: Evolution of Direct Maintenance Cost / FH by AC Category (23 Airlines)
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64 Maintenance Costs Trend Analysis by Aircraft Category (FY2010-2014 - 23 Airlines)
132 107 2013
137 103 2014
Fig. 69: Evolution of Direct Maintenance Cost / FC by AC Category (23 Airlines)
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Fig. 70: Evolution of Direct Maintenance Cost / AC by AC Category (23 Airlines)
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Maintenance Costs Trend Analysis by Aircraft Category (FY2010-2014 - 23 Airlines) 65
5.2. Narrowbody Aircraft Fig. 71: NB Fleet Mix (FY2010 - 2014 — 23 Airlines)
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Fig. 72: NB Unit Costs (FY2010 - 2014 — 23 Airlines)
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66 Maintenance Costs Trend Analysis by Aircraft Category (FY2010-2014 - 23 Airlines)
Fig. 73: NB Maintenance Cost / FH by Segment (FY2010 - 2014 — 23 Airlines)
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Fig. 74: NB Maintenance Cost / FH by Element (FY2010 - 2014 — 23 Airlines)
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Maintenance Costs Trend Analysis by Aircraft Category (FY2010-2014 - 23 Airlines) 67
5.3. Widebody Aircraft Fig. 75: WB Fleet Mix (FY2010 - 2014 — 23 Airlines)
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Fig. 76: WB Unit Costs (FY2010 - 2014 — 23 Airlines)
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68 Maintenance Costs Trend Analysis by Aircraft Category (FY2010-2014 - 23 Airlines)
Fig. 77: WB Maintenance Cost / FH by Segment (FY2010 - 2014 — 23 Airlines)
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Fig. 78: WB Maintenance Cost /FH by Element (FY2010 - 2014 — 23 Airlines)
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Maintenance Costs Trend Analysis by Aircraft Category (FY2010-2014 - 23 Airlines) 69
5.4. Regional Jets Fig. 79: RJ Fleet Mix (FY2010 - 2014 — 23 Airlines)
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Fig. 80: RB Unit Costs (FY2010 - 2014 — 23 Airlines)
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70 Maintenance Costs Trend Analysis by Aircraft Category (FY2010-2014 - 23 Airlines)
Fig. 81: RJ Maintenance Cost / FH by Segment (FY2010 - 2014 — 23 Airlines)
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Fig. 82: RJ Maintenance Cost / FH by Element (FY2010 - 2014 — 23 Airlines)
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Maintenance Costs Trend Analysis by Aircraft Category (FY2010-2014 - 23 Airlines) 71
5.5. Turboprops Fig. 83: TP Fleet Mix (FY2010 - 2014 — 23 Airlines)
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Fig. 84: TP Unit Costs (FY2010 - 2014 — 23 Airlines)
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72 Maintenance Costs Trend Analysis by Aircraft Category (FY2010-2014 - 23 Airlines)
Fig. 85: TP Maintenance Cost / FH by Segment (FY2010 - 2014 — 23 Airlines)
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Fig. 86: TP Maintenance Cost / FH by Element (FY2010 - 2014 — 23 Airlines)
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Maintenance Costs Trend Analysis by Aircraft Category (FY2010-2014 - 23 Airlines) 73
Annex I: MCTF Fleet vs World Fleet (2014)
Table 17: Fleet Composition by Category Sources: MCTF (51 Airlines) World (ACAS)
MCTF WORLD NB
2,110 50.1% 13,792 56.1%
WB
1,530 36.3% 4,968 20.2%
RJ
394 9.3% 3,935 16%
TP
182 4.3% 1,902 7.7%
4,216 100% 24,597 100%
Table 18: Fleet Composition by Region Sources: MCTF (51 Airlines) World (ACAS)
Table 19: Fleet Composition by Manufacturer Sources: MCTF (51 Airlines) World (ACAS)
MCTF Africa
81 1.9%
707 2.9%
Americas
1,601 38%
9,448 38.4%
ASPAC
1,112 26.4%
3,707 15.1%
Europe
669 15.9%
6,252 25.4%
Middle East
467 11%
1,619 6.6%
N. Asia
286 6.8%
2,864 11.6%
4,216 100% 24,597 100%
MCTF WORLD
Boeing
2,223 52.7%
11,055 44.9%
Airbus
1,418 33.6%
7,695 31.3%
Embraer
372 8.8%
2,407 9.8%
Bombardier
87 2.1%
2,007 8.1%
ATR
95 2.3%
906 3.7%
BAE
20 0.5%
199 0.8%
Fokker
2 0%
192 0.8%
Other
0 0%
136 0.6%
4,216 100%
24,597 100%
74 Airline Maintenance Cost Executive Commentary - Annex
WORLD
Annex II: Staff (2014)
Table 20: Direct Labor Staff (29 Airlines)
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Table 21: Overhead Staff (43 Airlines)
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Table 22: Overhead Staff by Category (43 Airlines)
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Airline Maintenance Cost Executive Commentary - Annex 75
Annex III: Time Breakdown (2014)
Table 23: Time Breakdown for One Mechanic (28 Airlines) Breakdown of hours per year for one employee of the direct maintenance staff (i.e. mechanic)
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76 Airline Maintenance Cost Executive Commentary - Annex
ANNEX IV: Fleet Distribution by Aircraft Family and by Group (51 Airlines, FY2014)
Fig. 87: Fleet Distribution by Aircraft Family for Group One (up to 50 aircraft) 24 Airlines
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Fig. 88: Fleet Distribution by Aircraft Family for Group Two (51 – 100 aircraft) 13 Airlines
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Fig. 89: Fleet Distribution by Aircraft Family for Group Three (+101 aircraft) 14 Airlines
Airline Maintenance Cost Executive Commentary - Annex 77
Annex V: Operational Data by Aircraft Category
Table 24: Operational Data by Aircraft Category (23 Airlines)
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78 Airline Maintenance Cost Executive Commentary - Annex
ANNEXE VI: Unit Costs by Airline Fig. 90: Direct Maintenance Cost per FH (FY2014 — 51 Airlines)
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Fig. 91: Direct Maintenance Cost per FC (FY2014 — 51 Airlines)
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Airline Maintenance Cost Executive Commentary - Annex 79
Fig. 92: Direct Maintenance Cost per AC (FY2014 — 51 Airlines)
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Fig. 93: Inventory $ per AC (FY2014 — 38 Airlines)
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80 Airline Maintenance Cost Executive Commentary - Annex
Contributors Chris MARKOU:
[email protected] Geraldine CROS:
[email protected] Ashley SNG :
[email protected]
Contact Information For additional information, please contact us by email or visit our webpage.
[email protected] www.iata.org/mctf
Visit our website: www.iata.org