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CFM International LEAP

March 19, 2023

The CFM International LEAP ("Leading Edge Aviation Propulsion"[6]) is a high-bypass turbofan engine produced by CFM International, a 50–50 joint venture between American GE Aviation and French Safran Aircraft Engines (formerly Snecma). It is the successor of the CFM56 and competes with the Pratt & Whitney PW1000G to power narrow-body aircraft.

LEAP
Mockup of a LEAP-X, the early code name of the engine
Type Turbofan
National origin France/United States
Manufacturer CFM International
First run 4 September 2013[1]
Major applications Airbus A320neo family
Boeing 737 MAX
Comac C919
Number built 2516+[a]
Developed from CFM International CFM56
General Electric GEnx
Developed into General Electric Passport

Design

The LEAP's basic architecture includes a scaled-down version of Safran's low pressure turbine used on the GEnx engine. The fan has flexible blades manufactured by a resin transfer molding process, which are designed to untwist as the fan's rotational speed increases. While the LEAP is designed to operate at a higher pressure than the CFM56 (which is partly why it is more efficient), CFM plans to set the operating pressure lower than the maximum to maximize the engine's service life and reliability.[7] Currently proposed for the LEAP is a greater use of composite materials, a blisk fan in the compressor, a second-generation Twin Annular Pre-mixing Swirler (TAPS II) combustor, and a bypass ratio around 10–11:1.

The high-pressure (HP) compressor operates at up to a 22:1 compression ratio, which is roughly double the corresponding value for the CFM56's HP compressor.[8]

CFM uses ceramic matrix composites (CMC) to build the turbine shrouds.[9] These technological advances are projected to produce 16% lower fuel consumption.[10][11] Reliability is also supported by use of an eductor-based oil cooling system similar to that of the GEnx, featuring coolers mounted on the inner lining of the fan duct. According to Aviation Week's article, "The eductor device produces a venturi effect, which ensures a positive pressure to keep oil in the lower internal sump."[7] The engine has some of the first FAA-approved 3D-printed components.[12]

Development

 
The LEAP-1A was tested on GE's 747-400 flying test platform.[13]

The LEAP ("Leading Edge Aviation Propulsion")[14] incorporates technologies that CFM developed as part of the LEAP56 technology acquisition program, which CFM launched in 2005.[15] The engine was officially launched as LEAP-X on 13 July 2008.[10] It is intended to be a successor to the CFM56-5B and CFM56-7B.

In 2009, COMAC selected the LEAP engine for the C919.[16] The aircraft was due to begin testing in 2016.[17] In total, 28 test engines will be used by CFM to achieve engine certification, and 32 others will be used by Airbus, Boeing and COMAC for aircraft certification and test programs.[1][18] The first engine entering the test program reached and sustained 33,000 lbf (150 kN) of thrust, required to satisfy the highest rating for the Airbus A321neo. The same engine ultimately reached 35,000 lbf (160 kN) of thrust in test runs.[7]

CFM carried out the first test flight, of a LEAP-1C, in Victorville, California, with the engine mounted on the company's Boeing 747 flying testbed aircraft, on October 6, 2014. The -1C version features a thrust reverser equipped with a one piece O-ring replacing a 2 piece door. The thrust reverser is deployed by the O-ring sliding aft, reducing the drag that was induced by the older design and improving efficiency.[19] In April 2015, it was reported that the LEAP-1B was suffering up to a 5% shortfall on its promised reduction in fuel consumption.[20] It obtained its 180-minute ETOPS approval from the U.S. Federal Aviation Administration and the European Aviation Safety Agency on June 19, 2017.[21]

Orders

On July 20, 2011, American Airlines announced that it planned to purchase 100 Boeing 737 aircraft featuring the LEAP-1B engine.[22] The project was approved by Boeing on August 30, 2011, as the Boeing 737 MAX.[23][24] Southwest Airlines is the launch customer of the 737 MAX with a firm order of 150 aircraft.[25]

The list price of a LEAP-1A is USD14.5 million,[26] and USD14.5 million for a LEAP-1B.[27]

CFM International offers its support for the engine, and signed a 15-year Rate per Flight Hour agreement with Loong Air for 20 LEAP-1A at U.S $333 million, or $3039 per engine per day, in contrast with U.S. $138 million for 17 CFM International CFM56 over 12 years or $1852 per engine per day.[28] As a number of A320neo engine for ANA group of Japan was also ordered in 2014, there is a possibility to select the LEAP engine.[29]

In 2016 CFM booked 1,801 orders, LEAP backlog is at more than 12,200 for more than $170 billion U.S. at list price.[2] In early 2018, the backlog was at 14,500, with a 59% share of the A320neo market for decided customers as it has an 18 percentage point advantage in utilization rate over the Pratt & Whitney PW1000G.[30]

By July 2018, the LEAP had an eight-year backlog with 16,300 sales. More LEAPs were produced in the five years to 2018 than CFM56s in 25 years.[3] It is the second-most ordered jet engine behind the 44-year-old CFM56,[31] which achieved 35,500 orders.[3] In July 2018 its A320neo selected-engine market share was 58.6%, with one-third yet to select, the CFM56 have a 60% share of the A320ceo market.[31]

In 2020, GE Aviation lost 1,900 orders worth $13.9 billion ($7.3M each), reducing the backlog value to $259 billion, while more than 1,000 Boeing 737 Max orders were cancelled among the Boeing 737 MAX groundings and the impact of the COVID-19 pandemic on aviation.[32]

Production

 
side view with cutaways

In 2016, the engine was introduced in August on the Airbus A320neo with Pegasus Airlines and CFM delivered 77 LEAP.[2] With the 737 MAX introduction, CFM delivered 257 LEAPs in the first three quarters of 2017, including 110 in the third: 49 to Airbus and 61 to Boeing, and targets 450 in the year.[33] CFM was to produce 1,200 engines in 2018, 1,900 in 2019, and 2,100 in 2020.[34] This is compared to the 1,700 CFM56 produced in 2016.[35]

To cope with the demand, CFM is duplicating supply sources on 80% of parts and even subdivide assembly sites, already shared between GE and Safran.[36] GE assembles its production in Lafayette, Indiana, US in addition to its previous Durham, North Carolina, US facility.[36] As more than 75% of the engine comes from suppliers, critical parts suppliers pass “run-rate stress tests” lasting two to 12 weeks.[36] Pratt & Whitney acknowledges a production ramp-up bottleneck on its rival PW1100G geared turbofan including a critical shortage of the unique aluminium-titanium fan blade, hitting the Airbus A320neo and the Bombardier CSeries deliveries.[36] Safran assembles its production in Villaroche, France, Safran and GE each assemble half of the annual volume.[37] Mecachrome plan to produce 120,000–130,000 LEAP turbine blades in 2018 up from 50,000 in 2017.[38]

In mid-June 2018, deliveries remained four to five weeks behind schedule down from six, and should catch up in the fourth quarter as the quality variation of castings and forgings improves.[3] The production has no single manufacturing choke point by selecting multiple suppliers for every critical part.[3] From 460 in 2017, 1,100 LEAPs should be built in 2018, along 1,050 CFM56s as it encounter unexpected sales, to pass the record production of 1,900 engines in 2017.[3] It will stay over 2,000 engines per year as 1,800 LEAPs should be produced in 2019 while CFM56 production will drop, then 2,000 in 2020.[3] In 2018, 1,118 engines were delivered.[4]

Over the first half of 2019, CFM revenues were up by 23% to €5.9 billion with 1,119 engine deliveries; declining sales of CFM56 (258 sold), more than offsetted by LEAP (861 sold).[5] Recurring operating income rose by 34% to €1.2 billion, but was reduced by €107 million ($118 million) due to the negative margins and initial costs of LEAP production, before a positive contribution expected in the second half.[5] Revenues should grow by 15% in 2019 but free cash flow depends on the return to service of the grounded 737 MAX.[5]

In 2019, LEAP production rose to 1,736 engines, orders and commitments reached 1,968 amid the 737 MAX groundings, compared with 3,211 for 2018, for a stable backlog of 15,614 (compared to 15,620).[39] CFM expects to produce 1,400 LEAP engines in 2020, including an average of 10 weekly LEAP-1Bs for the Boeing 737 Max.[39] By March 2022, CFM intended to output 2,000 engines in 2023, up from 845 deliveries in 2021.[40]

Operations

The troubled introduction of the PW1100G on the A320neo has motivated customers to choose LEAP engines. LEAP market share rose from 55% to 60% in 2016, but orders for 1,523 aircraft (29%) had not specified which engine would be chosen.[41] From January through early August 2017, 39 PW1100G engines versus 396 CFM LEAP engines were chosen.[41] As an example of PW1100G reliability issues, 9% of LEAP-powered A320neos were out of service for at least one week in July 2017, compared with 46% of those using the PW1100G.[41]

The Boeing 737 MAX LEAP-1B started revenue service in May 2017 with Malindo Air with 8 hours of daily operation, while the A320neo LEAP-1A surpassed 10 hours per day by July. Safran discovered a production quality defect on LEAP-1B low-pressure turbine disks during assembly for possibly 30 engines and CFM is working to minimize flight-test and customer-delivery disruptions.[42]

In early October 2017, an exhaust gas temperature shift was noticed during a flight and a CMC shroud coating in the HP turbine was seen flaking off in a borescope inspection, creating a leaking gap: eight in-service engines are seeing their coating replaced.[43] Safran provisioned €50 million ($58 million) to trouble-shoot in-service engines, including potentially LEAP-1Bs.[33] Forty LEAP-1A were replaced and the part should be replaced in over 500 in-service engines, while shipments are four weeks behind schedule.[44] Deliveries with the permanent CMC environmental-barrier coating fix began in June.[45]

On March 26, 2019, due to the Boeing 737 MAX groundings, Southwest Airlines flight 8701 (737 MAX 8) took off from Orlando International Airport for a ferry flight to storage without passengers, but soon after problems with one of the engines caused an emergency landing at the same airport. Southwest then inspected 12 LEAP engines and two other airlines also inspected their engines.[46] CFM recommended replacing the fuel nozzles more often due to coking, a carbon buildup.[47]

By December 2021, CFM claimed a 72% share of the narrowbody market.[48]

Applications

CFM International LEAP engine[49]
Model Application Thrust range Introduction
-1A Airbus A320neo family 24,500–35,000 lbf (109–156 kN) 2 Aug 2016[50]
-1B Boeing 737 MAX 23,000–28,000 lbf (100–120 kN) 22 May 2017[51]
-1C COMAC C919 27,980–30,000 lbf (124.5–133.4 kN) 2023 (planned)[52]

Specifications

 
18 blade fan
The LEAP Family
Model LEAP-1A[53] LEAP-1B[54] LEAP-1C[53]
Configuration Twin-spool, high bypass turbofan
Compressor 1 fan, 3-stage LP, 10-stage HP[55]
Combustor Second generation Twin-Annular, Pre-Mixing Swirler Combustor (TAPS II)[49]
Turbine 2-stage HP, 7-stage (-1B: 5-stage) LP[56]
OPR 40:1[55] (50:1, Top-of-Climb)
Cruise TSFC 0.51 lb/lbf/h (14.4 g/kN/s)[57] 0.53 lb/lbf/h (15.0 g/kN/s)[57] 0.51 lb/lbf/h (14.4 g/kN/s)[58]
Fan diameter[55] 78 in (198 cm) 69.4 in (176 cm) 77 in (196 cm)[59]
Bypass ratio[55] 11:1 9:1 11:1
Length 3.328 m (131.0 in) [b] 3.147 m (123.9 in) 4.505 m (177.4 in) [c]
Max. Width 2.533–2.543 m (99.7–100.1 in) 2.421 m (95.3 in) 2.659 m (104.7 in)
Max. Height 2.368–2.362 m (93.2–93.0 in) 2.256 m (88.8 in) 2.714 m (106.9 in)
Weight 2,990–3,153 kg (6,592–6,951 lb) (Wet) 2,780 kg (6,130 lb) (Dry) 3,929–3,935 kg (8,662–8,675 lb) (Wet)
Max. Take-Off thrust 143.05 kN (32,160 lbf) 130.41 kN (29,320 lbf) 137.14 kN (30,830 lbf)
Max. Continuous 140.96 kN (31,690 lbf) 127.62 kN (28,690 lbf) 133.22 kN (29,950 lbf)
Max. rpm LP : 3894, HP : 19391 LP : 4586, HP : 20171 LP : 3894, HP : 19391
Thrust ratings[53][54]
Variant Take-Off Thrust Max. Continuous
-1A23 106.80 kN (24,010 lbf) 104.58 kN (23,510 lbf)
-1A24 106.80 kN (24,010 lbf) 106.76 kN (24,000 lbf)
-1B25 119.15 kN (26,790 lbf) 115.47 kN (25,960 lbf)
-1A26 120.64 kN (27,120 lbf) 118.68 kN (26,680 lbf)
-1B27 124.71 kN (28,040 lbf) 121.31 kN (27,270 lbf)
-1B28 130.41 kN (29,320 lbf) 127.62 kN (28,690 lbf)
-1C28 129.98 kN (29,220 lbf) 127.93 kN (28,760 lbf)
-1C30 137.14 kN (30,830 lbf) 133.22 kN (29,950 lbf)
-1A30, 32, 33, 35A 143.05 kN (32,160 lbf) 140.96 kN (31,690 lbf)
  1. ^ 77 delivered in 2016,[2] 460 in 2017,[3] 1,118 in 2018,[4] 861 in H1 2019.[5]
  2. ^ fan case forward flange to turbine rear frame aft flange
  3. ^ fan cowl hinge beam front to centre vent tube end

See also

Related development

Comparable engines

Related lists

References

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External links

 
Wikimedia Commons has media related to CFM International LEAP.
  • CFM LEAP page
  • CFM ready to advance LEAP-X schedule; opens way for 737RE
  • A320 re-engine decision in 2010
  • Plane makers switch to cleaner engines

March 19, 2023
international, leap, leading, edge, aviation, propulsion, high, bypass, turbofan, engine, produced, international, joint, venture, between, american, aviation, french, safran, aircraft, engines, formerly, snecma, successor, cfm56, competes, with, pratt, whitne. The CFM International LEAP Leading Edge Aviation Propulsion 6 is a high bypass turbofan engine produced by CFM International a 50 50 joint venture between American GE Aviation and French Safran Aircraft Engines formerly Snecma It is the successor of the CFM56 and competes with the Pratt amp Whitney PW1000G to power narrow body aircraft LEAPMockup of a LEAP X the early code name of the engineType TurbofanNational origin France United StatesManufacturer CFM InternationalFirst run 4 September 2013 1 Major applications Airbus A320neo family Boeing 737 MAX Comac C919Number built 2516 a Developed from CFM International CFM56 General Electric GEnxDeveloped into General Electric Passport Contents 1 Design 2 Development 2 1 Orders 2 2 Production 2 3 Operations 3 Applications 4 Specifications 5 See also 6 References 7 External linksDesign EditThe LEAP s basic architecture includes a scaled down version of Safran s low pressure turbine used on the GEnx engine The fan has flexible blades manufactured by a resin transfer molding process which are designed to untwist as the fan s rotational speed increases While the LEAP is designed to operate at a higher pressure than the CFM56 which is partly why it is more efficient CFM plans to set the operating pressure lower than the maximum to maximize the engine s service life and reliability 7 Currently proposed for the LEAP is a greater use of composite materials a blisk fan in the compressor a second generation Twin Annular Pre mixing Swirler TAPS II combustor and a bypass ratio around 10 11 1 The high pressure HP compressor operates at up to a 22 1 compression ratio which is roughly double the corresponding value for the CFM56 s HP compressor 8 CFM uses ceramic matrix composites CMC to build the turbine shrouds 9 These technological advances are projected to produce 16 lower fuel consumption 10 11 Reliability is also supported by use of an eductor based oil cooling system similar to that of the GEnx featuring coolers mounted on the inner lining of the fan duct According to Aviation Week s article The eductor device produces a venturi effect which ensures a positive pressure to keep oil in the lower internal sump 7 The engine has some of the first FAA approved 3D printed components 12 Development Edit The LEAP 1A was tested on GE s 747 400 flying test platform 13 The LEAP Leading Edge Aviation Propulsion 14 incorporates technologies that CFM developed as part of the LEAP56 technology acquisition program which CFM launched in 2005 15 The engine was officially launched as LEAP X on 13 July 2008 10 It is intended to be a successor to the CFM56 5B and CFM56 7B In 2009 COMAC selected the LEAP engine for the C919 16 The aircraft was due to begin testing in 2016 17 In total 28 test engines will be used by CFM to achieve engine certification and 32 others will be used by Airbus Boeing and COMAC for aircraft certification and test programs 1 18 The first engine entering the test program reached and sustained 33 000 lbf 150 kN of thrust required to satisfy the highest rating for the Airbus A321neo The same engine ultimately reached 35 000 lbf 160 kN of thrust in test runs 7 CFM carried out the first test flight of a LEAP 1C in Victorville California with the engine mounted on the company s Boeing 747 flying testbed aircraft on October 6 2014 The 1C version features a thrust reverser equipped with a one piece O ring replacing a 2 piece door The thrust reverser is deployed by the O ring sliding aft reducing the drag that was induced by the older design and improving efficiency 19 In April 2015 it was reported that the LEAP 1B was suffering up to a 5 shortfall on its promised reduction in fuel consumption 20 It obtained its 180 minute ETOPS approval from the U S Federal Aviation Administration and the European Aviation Safety Agency on June 19 2017 21 Orders Edit On July 20 2011 American Airlines announced that it planned to purchase 100 Boeing 737 aircraft featuring the LEAP 1B engine 22 The project was approved by Boeing on August 30 2011 as the Boeing 737 MAX 23 24 Southwest Airlines is the launch customer of the 737 MAX with a firm order of 150 aircraft 25 The list price of a LEAP 1A is USD14 5 million 26 and USD14 5 million for a LEAP 1B 27 CFM International offers its support for the engine and signed a 15 year Rate per Flight Hour agreement with Loong Air for 20 LEAP 1A at U S 333 million or 3039 per engine per day in contrast with U S 138 million for 17 CFM International CFM56 over 12 years or 1852 per engine per day 28 As a number of A320neo engine for ANA group of Japan was also ordered in 2014 there is a possibility to select the LEAP engine 29 In 2016 CFM booked 1 801 orders LEAP backlog is at more than 12 200 for more than 170 billion U S at list price 2 In early 2018 the backlog was at 14 500 with a 59 share of the A320neo market for decided customers as it has an 18 percentage point advantage in utilization rate over the Pratt amp Whitney PW1000G 30 By July 2018 the LEAP had an eight year backlog with 16 300 sales More LEAPs were produced in the five years to 2018 than CFM56s in 25 years 3 It is the second most ordered jet engine behind the 44 year old CFM56 31 which achieved 35 500 orders 3 In July 2018 its A320neo selected engine market share was 58 6 with one third yet to select the CFM56 have a 60 share of the A320ceo market 31 In 2020 GE Aviation lost 1 900 orders worth 13 9 billion 7 3M each reducing the backlog value to 259 billion while more than 1 000 Boeing 737 Max orders were cancelled among the Boeing 737 MAX groundings and the impact of the COVID 19 pandemic on aviation 32 Production Edit side view with cutaways In 2016 the engine was introduced in August on the Airbus A320neo with Pegasus Airlines and CFM delivered 77 LEAP 2 With the 737 MAX introduction CFM delivered 257 LEAPs in the first three quarters of 2017 including 110 in the third 49 to Airbus and 61 to Boeing and targets 450 in the year 33 CFM was to produce 1 200 engines in 2018 1 900 in 2019 and 2 100 in 2020 34 This is compared to the 1 700 CFM56 produced in 2016 35 To cope with the demand CFM is duplicating supply sources on 80 of parts and even subdivide assembly sites already shared between GE and Safran 36 GE assembles its production in Lafayette Indiana US in addition to its previous Durham North Carolina US facility 36 As more than 75 of the engine comes from suppliers critical parts suppliers pass run rate stress tests lasting two to 12 weeks 36 Pratt amp Whitney acknowledges a production ramp up bottleneck on its rival PW1100G geared turbofan including a critical shortage of the unique aluminium titanium fan blade hitting the Airbus A320neo and the Bombardier CSeries deliveries 36 Safran assembles its production in Villaroche France Safran and GE each assemble half of the annual volume 37 Mecachrome plan to produce 120 000 130 000 LEAP turbine blades in 2018 up from 50 000 in 2017 38 In mid June 2018 deliveries remained four to five weeks behind schedule down from six and should catch up in the fourth quarter as the quality variation of castings and forgings improves 3 The production has no single manufacturing choke point by selecting multiple suppliers for every critical part 3 From 460 in 2017 1 100 LEAPs should be built in 2018 along 1 050 CFM56s as it encounter unexpected sales to pass the record production of 1 900 engines in 2017 3 It will stay over 2 000 engines per year as 1 800 LEAPs should be produced in 2019 while CFM56 production will drop then 2 000 in 2020 3 In 2018 1 118 engines were delivered 4 Over the first half of 2019 CFM revenues were up by 23 to 5 9 billion with 1 119 engine deliveries declining sales of CFM56 258 sold more than offsetted by LEAP 861 sold 5 Recurring operating income rose by 34 to 1 2 billion but was reduced by 107 million 118 million due to the negative margins and initial costs of LEAP production before a positive contribution expected in the second half 5 Revenues should grow by 15 in 2019 but free cash flow depends on the return to service of the grounded 737 MAX 5 In 2019 LEAP production rose to 1 736 engines orders and commitments reached 1 968 amid the 737 MAX groundings compared with 3 211 for 2018 for a stable backlog of 15 614 compared to 15 620 39 CFM expects to produce 1 400 LEAP engines in 2020 including an average of 10 weekly LEAP 1Bs for the Boeing 737 Max 39 By March 2022 CFM intended to output 2 000 engines in 2023 up from 845 deliveries in 2021 40 Operations Edit The troubled introduction of the PW1100G on the A320neo has motivated customers to choose LEAP engines LEAP market share rose from 55 to 60 in 2016 but orders for 1 523 aircraft 29 had not specified which engine would be chosen 41 From January through early August 2017 39 PW1100G engines versus 396 CFM LEAP engines were chosen 41 As an example of PW1100G reliability issues 9 of LEAP powered A320neos were out of service for at least one week in July 2017 compared with 46 of those using the PW1100G 41 The Boeing 737 MAX LEAP 1B started revenue service in May 2017 with Malindo Air with 8 hours of daily operation while the A320neo LEAP 1A surpassed 10 hours per day by July Safran discovered a production quality defect on LEAP 1B low pressure turbine disks during assembly for possibly 30 engines and CFM is working to minimize flight test and customer delivery disruptions 42 In early October 2017 an exhaust gas temperature shift was noticed during a flight and a CMC shroud coating in the HP turbine was seen flaking off in a borescope inspection creating a leaking gap eight in service engines are seeing their coating replaced 43 Safran provisioned 50 million 58 million to trouble shoot in service engines including potentially LEAP 1Bs 33 Forty LEAP 1A were replaced and the part should be replaced in over 500 in service engines while shipments are four weeks behind schedule 44 Deliveries with the permanent CMC environmental barrier coating fix began in June 45 On March 26 2019 due to the Boeing 737 MAX groundings Southwest Airlines flight 8701 737 MAX 8 took off from Orlando International Airport for a ferry flight to storage without passengers but soon after problems with one of the engines caused an emergency landing at the same airport Southwest then inspected 12 LEAP engines and two other airlines also inspected their engines 46 CFM recommended replacing the fuel nozzles more often due to coking a carbon buildup 47 By December 2021 CFM claimed a 72 share of the narrowbody market 48 Applications EditCFM International LEAP engine 49 Model Application Thrust range Introduction 1A Airbus A320neo family 24 500 35 000 lbf 109 156 kN 2 Aug 2016 50 1B Boeing 737 MAX 23 000 28 000 lbf 100 120 kN 22 May 2017 51 1C COMAC C919 27 980 30 000 lbf 124 5 133 4 kN 2023 planned 52 The LEAP 1A installed on the Airbus A320neo family The LEAP 1B installed on the Boeing 737 MAX The LEAP 1C is the exclusive engine option for the Chinese Comac C919 Specifications Edit 18 blade fan The LEAP Family Model LEAP 1A 53 LEAP 1B 54 LEAP 1C 53 Configuration Twin spool high bypass turbofanCompressor 1 fan 3 stage LP 10 stage HP 55 Combustor Second generation Twin Annular Pre Mixing Swirler Combustor TAPS II 49 Turbine 2 stage HP 7 stage 1B 5 stage LP 56 OPR 40 1 55 50 1 Top of Climb Cruise TSFC 0 51 lb lbf h 14 4 g kN s 57 0 53 lb lbf h 15 0 g kN s 57 0 51 lb lbf h 14 4 g kN s 58 Fan diameter 55 78 in 198 cm 69 4 in 176 cm 77 in 196 cm 59 Bypass ratio 55 11 1 9 1 11 1Length 3 328 m 131 0 in b 3 147 m 123 9 in 4 505 m 177 4 in c Max Width 2 533 2 543 m 99 7 100 1 in 2 421 m 95 3 in 2 659 m 104 7 in Max Height 2 368 2 362 m 93 2 93 0 in 2 256 m 88 8 in 2 714 m 106 9 in Weight 2 990 3 153 kg 6 592 6 951 lb Wet 2 780 kg 6 130 lb Dry 3 929 3 935 kg 8 662 8 675 lb Wet Max Take Off thrust 143 05 kN 32 160 lbf 130 41 kN 29 320 lbf 137 14 kN 30 830 lbf Max Continuous 140 96 kN 31 690 lbf 127 62 kN 28 690 lbf 133 22 kN 29 950 lbf Max rpm LP 3894 HP 19391 LP 4586 HP 20171 LP 3894 HP 19391Thrust ratings 53 54 Variant Take Off Thrust Max Continuous 1A23 106 80 kN 24 010 lbf 104 58 kN 23 510 lbf 1A24 106 80 kN 24 010 lbf 106 76 kN 24 000 lbf 1B25 119 15 kN 26 790 lbf 115 47 kN 25 960 lbf 1A26 120 64 kN 27 120 lbf 118 68 kN 26 680 lbf 1B27 124 71 kN 28 040 lbf 121 31 kN 27 270 lbf 1B28 130 41 kN 29 320 lbf 127 62 kN 28 690 lbf 1C28 129 98 kN 29 220 lbf 127 93 kN 28 760 lbf 1C30 137 14 kN 30 830 lbf 133 22 kN 29 950 lbf 1A30 32 33 35A 143 05 kN 32 160 lbf 140 96 kN 31 690 lbf 77 delivered in 2016 2 460 in 2017 3 1 118 in 2018 4 861 in H1 2019 5 fan case forward flange to turbine rear frame aft flange fan cowl hinge beam front to centre vent tube endSee also EditRelated development CFM International CFM56 General Electric PassportComparable engines Aviadvigatel PD 14 Pratt amp Whitney PW1000G ACAE CJ 1000ARelated lists List of aircraft enginesReferences Edit a b CFM launches a new era as first LEAP engine begins ground testing CFM International 2013 09 06 Archived from the original on 2015 06 20 Retrieved 2013 09 07 a b c 2016 CFM orders surpass 2 600 engines Press release CFM International 14 February 2017 Archived from the original on 10 December 2019 Retrieved 15 February 2017 a b c d e f g Chris Kjelgaard July 4 2018 CFM Confident Leap Production Can Catch Up Soon AIN online Archived from the original on 2018 07 05 Retrieved 2018 07 05 a b Jon Hemmerdinger 1 Feb 2019 MID SUPPLY CHAIN RECOVERY CFM s Leap deliveries doubled in 2018 amid supply chain recovery Flightglobal Archived from the original on 26 October 2019 Retrieved 26 October 2019 a b c d David Kaminski Morrow 5 Sep 2019 Leap production edges towards positive contribution Flightglobal Archived from the original on 5 September 2019 Retrieved 5 September 2019 Aircraft engines Safran Archived from the original on 2019 08 06 Retrieved 2019 08 02 a b c Guy Norris Oct 28 2013 Smooth Start To Fast Paced Leap 1A Test Program Archived from the original on September 28 2018 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03 06 Retrieved 2018 03 06 Chris Kjelgaard July 17 2018 CFM Fixes Leap Turbine Shroud Coatings AIN online Archived from the original on 2018 07 17 Retrieved 2018 07 17 Schlangenstein Mary Clough Rick Levin Alan April 17 2019 Airlines to Conduct Engine Checks on Grounded Boeing Max Bloomberg News Archived from the original on 2019 04 18 Retrieved 2019 05 04 Broderick Sean Apr 18 2019 CFM Monitoring Leap Fleet For Issue Linked To Southwest Engine Failure Aviation Week Network Archived from the original on May 5 2019 Retrieved May 5 2019 Dominic Perry 2 December 2021 Safran waiting for airframers before any new engine launch says chief Andries Flightglobal Archived from the original on 4 December 2021 Retrieved 3 December 2021 a b The Leap Engine CFM International Archived from the original on 3 September 2018 Retrieved 14 November 2016 Pegasus starts flying Leap 1A powered A320neo Flight Global August 2 2016 Archived from the original on June 26 2018 Retrieved August 3 2016 Malindo operates world s first 737 Max flight Flight Global May 22 2017 Archived from the original on November 13 2018 Retrieved May 22 2017 China Eastern takes delivery of the world s first made in China C919 jet Reuters 9 December 2022 a b c Type Certificate data sheet for LEAP 1A amp LEAP 1C Series Engines PDF EASA 30 May 2018 Archived from the original PDF on 13 October 2018 Retrieved 12 October 2018 a b Type Certificate data sheet for LEAP 1B Series Engines PDF EASA 16 June 2017 Archived from the original PDF on 4 April 2018 Retrieved 4 April 2018 a b c d LEAP overview PDF CFM International June 2017 Archived PDF from the original on 2018 04 04 Retrieved 2018 04 04 Comparing the new technology Narrow body engines GTF vs LEAP maintenance costs Airinsight November 9 2011 Archived from the original on April 18 2015 Retrieved May 31 2013 a b Vladimir Karnozov August 19 2019 Aviadvigatel Mulls Higher thrust PD 14s To Replace PS 90A AIN Online Archived from the original on 2021 05 16 Retrieved 2021 05 16 Fomin Andrey December 2011 PD 14 New generation engine for MC 21 Take off pp 20 21 Archived from the original on 2022 01 26 Retrieved 2019 08 07 LEAP 1C integrated propulsion system for the Comac C919 Safran Aircraft Engines June 2015 Archived from the original on 2017 04 21 Retrieved 2018 04 04 External links Edit Wikimedia Commons has media related to CFM International LEAP CFM LEAP page CFM Unveils New LEAP X Engine CFM ready to advance LEAP X schedule opens way for 737RE A320 re engine decision in 2010 Plane makers switch to cleaner engines Retrieved from https en wikipedia org w index php title CFM International LEAP amp oldid 1141577088, wikipedia, wiki, book, books, library,

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