avia.wikisort.org - Aeroplane

Search / Calendar

The Boeing 737 Next Generation, commonly abbreviated as 737NG, or 737 Next Gen, is a narrow-body aircraft powered by two jet engines and produced by Boeing Commercial Airplanes. Launched in 1993 as the third generation derivative of the Boeing 737, it has been produced since 1997[4] and is an upgrade of the 737 Classic (−300/-400/-500) series.

Boeing 737 Next Generation
737-600/-700/-800/-900
The 737-800 is the best-selling 737NG variant.
Role Narrow-body airliner
National origin United States
Manufacturer Boeing Commercial Airplanes
First flight February 9, 1997
Introduction December 17, 1997 with Southwest Airlines[1]
Status In service
Primary users Southwest Airlines
Ryanair
United Airlines
American Airlines
Produced 1996–2019 (civilian variants)[2]
1996–present (military variants)
Number built 7,097 as of October 2022[3]
Developed from Boeing 737 Classic
Variants Boeing Business Jet
Boeing 737 AEW&C
Boeing C-40 Clipper
Boeing P-8 Poseidon
Developed into Boeing 737 MAX

It has a redesigned wing with a larger area, a wider wingspan, greater fuel capacity, and higher maximum takeoff weights (MTOW) and longer range. It has CFM International CFM56-7 series engines, a glass cockpit, and upgraded and redesigned interior configurations. The series includes four variants, the −600/-700/-800/-900, seating between 108 and 215 passengers. The 737NG's primary competition is the Airbus A320 family.

As of September 2022, a total of 7,124 737NG aircraft had been ordered, of which 7,096 had been delivered, with remaining orders for two -800, and 26 -800A variants. The most produced variant was the 737-800, with 4,991 commercial, 191 military, and 23 corporate, or a total of 5,205 jets ordered. Boeing stopped assembling commercial 737NGs in 2019 and made the final deliveries in January 2020.[2] The 737NG is superseded by the fourth generation 737 MAX, introduced in 2017.


Development


The first 737NG, a 737-700, was rolled out on December 8, 1996, and first flew on February 9, 1997, it was later delivered to Southwest Airlines
The first 737NG, a 737-700, was rolled out on December 8, 1996, and first flew on February 9, 1997, it was later delivered to Southwest Airlines

Background


When regular Boeing customer United Airlines bought the more technologically advanced Airbus A320 with fly-by-wire controls, this prompted Boeing to update the slower, shorter-range 737 Classic variants into the more efficient, longer New Generation variants.[5] In 1991, Boeing initiated development of an updated series of aircraft.[6] After working with potential customers, the 737 Next Generation (NG) program was announced on November 17, 1993.[7]


Testing


The first NG to roll out was a 737−700, on December 8, 1996. This aircraft, the 2,843rd 737 built, first flew on February 9, 1997, with pilots Mike Hewett and Ken Higgins. The prototype 737−800 rolled out on June 30, 1997, and first flew on July 31, 1997, piloted by Jim McRoberts and again by Hewett. The smallest of the new variants, the −600 series, is identical in size to the −500, launching in December 1997 with an initial flight occurring January 22, 1998; it was granted FAA certification on August 18, 1998.[7][8] The flight test program used 10 aircraft: 3 -600s, 4 -700s, and 3 -800s.[7]


Enhancements


In 2004, Boeing offered a Short Field Performance package in response to the needs of Gol Transportes Aéreos, which frequently operates from restricted airports. The enhancements improve takeoff and landing performance. The optional package is available for the 737NG models and standard equipment for the 737-900ER.

In July 2008, Boeing offered Messier-Bugatti-Dowty's new carbon brakes for the Next-Gen 737s, which are intended to replace steel brakes and will reduce the weight of the brake package by 550–700 pounds (250–320 kg) depending on whether standard or high-capacity steel brakes were fitted. A weight reduction of 700 pounds (320 kg) on a 737-800 results in 0.5% reduction in fuel burn.[9] Delta Air Lines received the first Next-Gen 737 model with this brake package, a 737-700, at the end of July 2008.[10]

The CFM56-7B Evolution nacelle began testing in August 2009 to be used on the new 737 PIP (Performance Improvement Package) due to enter service mid-2011. This new improvement is said to shave at least 1% off the overall drag and have some weight benefits. Overall, it is claimed to have a 2% improvement on fuel burn on longer stages.[11]


Enhanced Short Runway Package

This short-field design package is an option on the 737-600, -700, and -800 and is standard equipment for the new 737-900ER. These enhanced short runway versions could increase pay or fuel loads when operating on runways under 5,000 feet (1,500 m). Landing payloads were increased by up to 8,000 lb on the 737-800 and 737-900ER and up to 4,000 lb on the 737-600 and 737-700. Takeoff payloads were increased by up to 2,000 lb on the 737-800 and 737-900ER and up to 400 lb on the 737-600 and 737-700. The package includes:[12]

The first enhanced version was delivered to Gol Transportes Aéreos (GOL) on July 31, 2006. At that time, twelve customers had ordered the package for more than 250 airframes. Customers include: GOL, Alaska Airlines, Air Europa, Air India, Egyptair, GE Commercial Aviation Services (GECAS), Hapagfly, Japan Airlines, Pegasus Airlines, Ryanair, Sky Airlines and Turkish Airlines.[13]


Structural problems


In 2005, three ex-Boeing employees filed a lawsuit on behalf of the U.S. government, claiming that dozens of 737NG contained defective structural elements supplied by airframe manufacturer Ducommun, allegations denied by Boeing.[14][15] The federal judge presiding the case sided with Boeing, and a subsequent court of appeal also ruled in favor of the company.[16] A 2010 documentary by Al Jazeera alleged that in three crashes involving 737NGs – Turkish Airlines Flight 1951, American Airlines Flight 331, and AIRES Flight 8250 – the fuselage broke up following impact with the ground because of the defective structural components that were the subject of the 2005 lawsuit.[17] However, the accident investigations in all three cases did not highlight any link between post-impact structural failures and manufacturing issues.

During an inspection of a 737NG in 2019 that had 35,000 flights, fatigue cracks were found on a fuselage-to-wing attachment known as a "pickle fork", designed to last a lifetime of 90,000 flights. Boeing reported the issue to the FAA at the end of September 2019, and more planes showed similar cracking after inspection.[18] The cracks were found in an airliner with more than 33,500 flights, when it was stripped down for conversion to freighter. Aircraft with more than 30,000 flights (15 years at 2,000 flights per year) should be inspected within one week, while those with over 22,600 flights (11 years) should be inspected within one year.[19] The FAA Airworthiness Directive (AD) was issued on October 3, 2019.[20]

Of the 500 first inspected aircraft, 5% (25) had cracks and were grounded; Boeing expected to repair the first aircraft three weeks after the issuance of the directive, serving as the template for the resulting Service bulletin.[21] Of the 810 examined aircraft over 30,000 cycles, 38 had structural cracks (4.7%), leaving 1,911 737NGs over 22,600 cycles to be inspected within their next 1,000 cycles, i. e., nearly all of the US in-service fleet of 1,930.[22] By early November, 1,200 aircraft were inspected, with cracks on about 60 (5%). Cracks were discovered near fasteners outside the original area in four airplanes. On November 5, Boeing recommended expanding the checks to include them, to be mandated in a November 13 FAA AD. Aircraft below 30,000 cycles were to be reinspected within 1,000 cycles, within 60 days above. About one-quarter of the global NG fleet of 6,300 aircraft were to be inspected.[23]

Following the contained engine failure of the Southwest Airlines Flight 1380 on April 17, 2018, the NTSB recommended on November 19, 2019, to redesign and retrofit its nacelle for the 6,800 airplanes in service.[24]


Production


The production rate of the Boeing Renton Factory went from 31.5 to 52 per month
The production rate of the Boeing Renton Factory went from 31.5 to 52 per month

Boeing was to increase 737 production from 31.5 units per month in September 2010 to 35 in January 2012 and to 38 units per month in 2013.[25] Production rate was 42 units per month in 2014, and was planned to reach rates of 47 units per month in 2017 and 52 units per month in 2018.[26][27][28]

In 2016, the monthly production rate was targeted to reach 57 units per month in 2019, even to the factory limit of 63 units later. A single airplane was then produced in the Boeing Renton Factory in 10 days, less than half what it was a few years before. The empty fuselage from Spirit AeroSystems in Wichita, Kansas, enters the plant on Day 1. Electrical wiring is installed on Day 2 and hydraulic machinery on Day 3. On Day 4 the fuselage is crane-lifted and rotated 90 degrees, wings are mated to the airplane in a six-hour process, along with landing gear, and the airplane is again rotated 90°. The final assembly process begins on Day 6 with the installation of airline seats, galleys, lavatories, overhead bins, etc. Engines are attached on Day 8 and it rolls out of the factory for test flights on Day 10.[29]

Boeing stopped assembling passenger 737NGs in 2019. The last aircraft assembled was delivered to KLM in December 2019; the last two deliveries were to China Eastern Airlines on January 5, 2020. Production of the P-8 Poseidon variant continues.[2]

The FAA has proposed a fine of approximately $3.9 million for Boeing's alleged installation of the same faulty components of the 737 MAX on some one hundred and thirty-three 737 NGs.[30]


Further developments


The Boeing 737 MAX first flew on January 29, 2016
The Boeing 737 MAX first flew on January 29, 2016
See also: Boeing Yellowstone Project and Boeing 737 MAX

From 2006, Boeing discussed replacing the 737 with a "clean sheet" design (internally named "Boeing Y1") that could follow the Boeing 787 Dreamliner.[31] A decision on this replacement was postponed, and delayed into 2011.[32]

In 2011, Boeing launched the 737 MAX, an updated and re-engined version of the 737NG with more efficient CFM International LEAP-1B engines, and aerodynamic changes with distinctive split-tip winglets.[33] The first 737 MAX performed its first flight in January 2016.[34] The fourth generation 737 MAX supersedes the third generation 737NG.


Design


Planform view of 737NG showing the 25% larger and 16 ft (4.9 m) wider wing compared to the 737 Classic
Planform view of 737NG showing the 25% larger and 16 ft (4.9 m) wider wing compared to the 737 Classic

The wing was redesigned with a new thinner airfoil section, and a greater chord and increased wing span (by 16 ft (4.9 m)) increased the wing area by 25%, which also increased total fuel capacity by 30%. New quieter and more fuel-efficient CFM56-7B engines are used.[35] Higher MTOWs are offered. The 737NG includes redesigned vertical stabilizers, and winglets are available on most models.[36]

The 737NG encompasses the -600, -700, -800, and -900 with improved performance and commonality retained from previous 737 models. The wing, engine, and fuel capacity improvements combined increase the 737's range by 900 nmi (1,700 km) to over 3,000 nmi (5,600 km),[37] permitting transcontinental service.[38]

The Speed Trim System, introduced on the 737 Classic, has been updated for the 737NG to include a stall identification function. Originally inhibited in high alpha scenarios, STS operates at any speed on the 737NG. STS is triggered by airspeed sensor and commands Airplane Nose Down as the airplane slows down.[39]


Interior


The flight deck was upgraded with modern avionics, and passenger cabin improvements similar to those on the Boeing 777, including more curved surfaces and larger overhead bins than previous-generation 737s. The Next Generation 737 interior was also adopted on the Boeing 757-300.[40] This improved on the previous interior of the Boeing 757-200 and the Boeing 737 Classic variants, the new interior became optional on the 757-200.

In 2010, new interior options for the 737NG included the 787-style Boeing Sky Interior.[11] It introduced new pivoting overhead bins (a first for a Boeing narrow-body aircraft), new sidewalls, new passenger service units, and LED mood lighting. Boeing's newer "Space Bins" can carry 50 percent more than the pivoting bins, thus allowing a 737-800 to hold 174 carry-on bags.[41] Boeing also offered it as a retrofit for older 737NG aircraft.[42]


Variants



737-600


The 737-600 is the shortest at 102 ft 6 in (31.24 m), SAS received the first in September 1998
The 737-600 is the shortest at 102 ft 6 in (31.24 m), SAS received the first in September 1998

The 737-600 was launched by SAS in March 1995, with the first aircraft delivered in September 1998.[43] A total of 69 have been produced, with the last aircraft delivered to WestJet in 2006.[3] Boeing displayed the 737-600 in its price list until August 2012.[44] The 737-600 replaces the 737-500 and is similar to the Airbus A318. Winglets were not an option.[45] WestJet was to launch the -600 with winglets, but dropped them in 2006.


737-700


The 737-700 is 110 ft 4 in (33.63 m) long and has a single overwing exit per side, Southwest Airlines took delivery of the first one in December 1997
The 737-700 is 110 ft 4 in (33.63 m) long and has a single overwing exit per side, Southwest Airlines took delivery of the first one in December 1997

In November 1993, Southwest Airlines launched the Next-Generation program with an order for 63 737-700s and took delivery of the first one in December 1997.[1] It replaced the 737-300, typically seating 126 passengers in two classes to 149 in all-economy configuration, similar to the Airbus A319.

In long-range cruise, it burns 4,440 lb (2,010 kg) per hour at Mach 0.785 (450 kn; 834 km/h) and FL410, increasing to 4,620–4,752 lb (2,096–2,155 kg) at Mach 0.80 – Mach 0.82 (459–470 kn; 850–871 km/h).[46] As of July 2018, all -700 series on order, 1,128 -700, 120 -700 BBJ, 20 -700C, and 14 -700W aircraft, have been delivered.[3] By June 2018, around one thousand were in service: half of them with Southwest Airlines, followed by Westjet with 56 and United Airlines with 39. The value of a new -700 stayed around $35 million from 2008 to 2018. A 2003 aircraft was valued for $15.5 million in 2016 and $12 million in 2018 and will be scrapped for $6 million by 2023.[47][unreliable source?]

The 737-700C is a convertible version where the seats can be removed to carry cargo instead. There is a large door on the left side of the aircraft. The United States Navy was the launch customer for the 737-700C under the military designation C-40 Clipper.[48]


737-700ER

Boeing launched the 737-700ER (Extended Range) on January 31, 2006, with All Nippon Airways as the launch customer. Inspired by the Boeing Business Jet, it features the fuselage of the 737-700 and the wings and landing gear of the 737-800. When outfitted with nine auxiliary fuel tanks, it can hold 10,707 gallons (40,530 L) of fuel with a 171,000 lb (77,565 kg) MTOW, but with a cargo payload capacity significantly decreased from 966 to 165 cu ft (27.4 to 4.7 m3), trading payload for increased range.[49] The first was delivered on February 16, 2007, to ANA with 24 business class and 24 premium economy seats only. A 737-700 can typically accommodate 126 passengers in two classes.[50] It is similar to the Airbus A319LR.


737-800


The 129 ft 6 in (39.47 m) long 737-800 has two overwing exits on each side, Hapag-Lloyd received the first in April 1998
The 129 ft 6 in (39.47 m) long 737-800 has two overwing exits on each side, Hapag-Lloyd received the first in April 1998

The Boeing 737-800 is a stretched version of the 737-700. It replaced the 737-400. The Boeing 737-800 competes primarily with the Airbus A320. The 737-800 seats 162 passengers in a two-class layout or 189 passengers in a one-class layout. The 737−800 was launched on September 5, 1994.[4] Launch customer Hapag-Lloyd Flug (now TUI fly Deutschland) received the first one in April 1998.[51]

Following Boeing's merger with McDonnell Douglas, the 737-800 also filled the gap left by Boeing's decision to discontinue the McDonnell Douglas MD-80 and MD-90 aircraft. For many airlines in the U.S., the 737-800 replaced aging Boeing 727-200 trijets.

The 737-800 burns 850 US gallons (3,200 L) of jet fuel per hour—about 80 percent of the fuel used by an MD-80 on a comparable flight, while carrying more passengers.[52] The Airline Monitor, an industry publication, quotes a 737-800 fuel burn of 4.88 US gal (18.5 L) per seat per hour, compared to 5.13 US gal (19.4 L) for the A320.[53] In 2011, United Airlines— flying a Boeing 737-800 from Houston to Chicago—operated the first U.S. commercial flight powered by a blend of algae-derived biofuel and traditional jet fuel to reduce its carbon footprint.[54]

In early 2017, a new 737-800 was valued at $48.3 million, falling to below $47 million by mid-2018.[55][unreliable source?] By 2025, a 17-year-old 737-800W will be worth $9.5 million and leased for $140,000 per month.[56][unreliable source?]

As of May 2019, Boeing had delivered 4,979 737-800s, 116 737-800As, and 21 737-800 BBJ2s, and has twelve 737-800 unfilled orders.[3] The 737-800 is the best-selling variant of the 737NG and is the most widely used narrow-body aircraft.[57] Ryanair, an Irish low-cost airline, is among the largest operators of the Boeing 737-800, with a fleet of over 400 of the -800 variant serving routes across Europe, Middle East, and North Africa.[58]


737-800BCF

The first 737-800BCF Boeing Converted Freighter was delivered to West Atlantic in April 2018
The first 737-800BCF Boeing Converted Freighter was delivered to West Atlantic in April 2018

In February 2016, Boeing launched a passenger-to-freighter conversion program, with converted aircraft designated as 737-800BCF (for Boeing Converted Freighter). Boeing started the program with orders for 55 conversions, with the first converted aircraft due for late 2017 delivery.[59] The first converted aircraft was delivered to West Atlantic in April 2018.[60]

At the 2018 Farnborough Airshow, GECAS announced an agreement for 20 firm orders and 15 option orders for the 737-800BCF, raising the commitment to 50 aircraft. Total orders and commitments include 80 aircraft to over half a dozen customers.[61] Since early 737NG aircraft become available on the market, they have been actively marketed to be converted to cargo planes via the Boeing Converted Freighter design because the operational economics are attractive due to the low operating costs and availability of certified pilots on a robust airframe.[citation needed]

Modifications to the 737-800 airframe include installing a large cargo door, a cargo handling system, and additional accommodations for non-flying crew or passengers.[61] The aircraft is designed to fly up to 1,995 nmi (3,695 km) at a MTOW of 174,100 lb (79,000 kg).[62]


737-800SF

In 2015, Boeing launched the 737-800SF passenger to freighter conversion program with Aeronautical Engineers Inc (AEI). The conversion can be completed by AEI or third-parties such as HAECO. GECAS was the initial customer. It has a 52,800 lb (23.9 tonnes) payload capacity, and a range of 2,000 nmi (3,750 km).[63] It received its supplemental type certificate from the FAA in early 2019.[64] In March 2019, the first AEI converted aircraft was delivered to Ethiopian Airlines on lease from GECAS.[65] The Civil Aviation Administration of China cleared it in January 2020.[66] Aircraft lessor Macquarie AirFinance ordered four 737-800SFs in March 2021.[67]


737-900


Stretched to 138 ft 2 in (42.11 m) and keeping the double overwing exits, the first 737-900 was delivered to Alaska Airlines on May 15, 2001
Stretched to 138 ft 2 in (42.11 m) and keeping the double overwing exits, the first 737-900 was delivered to Alaska Airlines on May 15, 2001

Boeing later introduced the 737-900, an even longer variant stretched to 138 ft 2 in (42.11 m). Because the −900 retains the same exit configuration of the −800, seating capacity is limited to 189, although aircraft equipped with a typical 2-class layout will seat approximately 177. The 737-900 also retains the MTOW and fuel capacity of the −800, trading range for payload. Alaska Airlines launched the 737-900 in 1997, the 737-900 made its first flight on August 3, 2000, and Alaska Airlines accepted the delivery on May 15, 2001. The type proved unpopular, with only 52 delivered, before being replaced by the improved 737-900ER.[3]


737-900ER

The 737-900ER features an extra door aft of the wing, Lion Air received the first one on April 27, 2007
The 737-900ER features an extra door aft of the wing, Lion Air received the first one on April 27, 2007

The 737-900ER (Extended Range), which was called the 737-900X before launch, was the final and largest variant of the Boeing 737 NG line. It was introduced to fill the range and passenger capacity gap in Boeing's product offerings after the 757-200 was discontinued, address the shortcomings of the 737-900, and to directly compete with the Airbus A321.

Up to two auxiliary fuel tanks in the cargo hold and standard winglets improved the range of the stretched jet to that of other 737NG variants, while an additional pair of exit doors and a flat rear pressure bulkhead increased maximum seating capacity to 220 passengers.[68][69] Airlines may deactivate (plug) the additional exit doors if the total configured capacity of the plane is 189 passengers or less.[69]

The first 737-900ER was rolled out of the Renton, Washington, factory on August 8, 2006, for its launch customer, Lion Air, an Indonesian low-cost airline. The airline received this aircraft on April 27, 2007, in a special dual paint scheme combining Lion Air's logo on the vertical stabilizer and Boeing's livery colors on the fuselage. A total of 505 -900ERs were delivered.[3]


Military models


Airborne early warning and control with a Boeing 737 AEW&C
Airborne early warning and control with a Boeing 737 AEW&C

Boeing Business Jet


Main article: Boeing Business Jet
A typical BBJ cabin
A typical BBJ cabin

In the late 1980s, Boeing marketed the Boeing 77-33 jet, a business jet version of the 737-300.[73][page needed] The name was short-lived. After the introduction of the next generation series, Boeing introduced the Boeing Business Jet (BBJ). The BBJ (retroactively referred to as the BBJ1) was similar in dimensions to the 737-700 but had additional features, including stronger wings and landing gear from the 737-800, and has increased range (through the use of extra fuel tanks) over the other various 737 models. The first BBJ rolled out on August 11, 1998, and flew for the first time on September 4.[74] A total of 113 BBJ1s were delivered to customers.[3]

On October 11, 1999, Boeing launched the BBJ2. Based on the 737-800, it is 19 ft 2 in (5.84 m) longer than the BBJ1, with 25% more cabin space and twice the baggage space, but with slightly reduced range. It is also fitted with auxiliary fuel tanks in the cargo hold and winglets. The first BBJ2 was delivered on February 28, 2001.[74] A total of 23 BBJ2s were delivered to customers.[3]

The BBJ3 aircraft is based on the 737-900ER aircraft.[75] The BBJ3 is approximately 16 feet longer than the BBJ2 and has a slightly shorter range.[76] Seven BBJ3s were delivered to customers.[3]


Operators


Main article: List of Boeing 737 operators

As of July 2018, 6,343 Boeing 737 Next Generation aircraft were in commercial service. This comprised 69 -600s, 1,027 -700s, 4,764 -800s and 513 -900s.[77]


Orders and deliveries


AircraftOrdersDeliveries
Model seriesTotalUnfilledTotal 2022 2021202020192018201720162015201420132012201120102009200820072006200520042003200220012000199919981997
737-600 6969 10336546248
737-700 1,1281,128 24671112743235161101103931098071857596853
737-700C 55 212
737-800 4,99124,989 228269397411396386347351292323283190214172104786912616818513365
737-900 5252 6611821
737-900ER 505505 2234375273706744241528309
(Commercial Jets) 6,7502 6,748 2503054384714764674264023593613622823342782061991652092822842371503
737-700W 1414 2252111
737-800A 19125166 10 1614171817181513895132
C-40A 17 17 2 1 2 1 2 1 2 2 1 3
C-40B/C 9 9 1 1 2 2 1 1 1
(Military jets) 231 25 206 10 16 14 19 18 17 19 15 15 8 9 7 5 5 2 1 8 2 3 3 4 2 4
BBJ 737-700 113113 1 11315264445733171210258
BBJ 737-800 2323 22122121325
BBJ 737-900 77 1411
(Business jets) 143143 1 2114364610565943491710258
(737 NextGen) 7,124277,097 11 1816703244554904954854404153723763722903303022122021732232992802781663

Data as of October 2022[3]


Accidents and incidents


Main article: List of accidents and incidents involving the Boeing 737

The Boeing 737 Next Generation series has been involved in 22 hull-loss accidents and 13 hijackings, for a total of 767 fatalities, according to the Aviation Safety Network, as of January 2020.[78]

An analysis by Boeing of commercial jet airplane accidents in the period 1959–2017 showed that the Next Generation series had a hull loss rate of 0.17 per million departures compared to 0.71 for the classic series and 1.75 for the original series.[79]


Specifications


Boeing 737 Characteristics[80]
Variant 737-600 737-700 737-800 737-900ER
Cockpit crew Two
2-class:56–62 108 (8F @36" 100Y @32") 128 (8F @36" 120Y @32") 160 (12F @36" 148Y @32") 177 (12F @36" 165Y @32")
1-class:56–62 123 @32" - 130 @30" 140 @32" - 148 @30" 175 @32" - 184 @30" 177 @32" - 215 @28"
Exit Limit[81] 149 189 220
Seat width:67 First: 22 in / 56 cm; Economy: 17 in / 43 cm
Length:34–41 102 ft 6 in / 31.24 m 110 ft 4 in / 33.63 m 129 ft 6 in / 39.47 m 138 ft 2 in / 42.11 m
Height:34–41 41 ft 3 in / 12.57 m 41 ft 2 in / 12.55 m
Wing[82] Span: 112 ft 7 in / 34.32 m, with winglets: 117 ft 5 in / 35.79 m;:34–41 Area: 124.60 m2 (1,341.2 sq ft); Sweepback: 25°; AR: 9.44
Fuselage:67 Width: 12 ft 4 in (3.76 m); Cabin width: 11 ft 7 in (3.53 m); Cabin height: 86.6 in (2.20 m)
OEW:21–24 80,200 lb / 36,378 kg 83,000 lb / 37,648 kg 91,300 lb / 41,413 kg 98,495 lb / 44,677 kg
MTOW:21–24 144,500 lb / 65,544 kg 154,500 lb / 70,080 kg 174,200 lb / 79,016 kg 187,700 lb / 85,139 kg
Fuel capacity:21–24 6,875 US gal / 26,022 L 7,837 US gal / 29,666 L[lower-alpha 1]
Lower deck cargo:21–24 720 ft³ / 20.4 m3 966 ft³ / 27.4 m3 1,555 ft³ / 44.1 m3 1,826 ft³ / 51.7 m3
Takeoff run[lower-alpha 2][82] 6,161 ft (1,878 m) 6,699 ft (2,042 m) 7,598 ft (2,316 m) 9,800 ft (3,000 m):159
Flight envelope[81] 41,000 feet (12,497 m) Ceiling, Mach 0.82 (470 kn; 871 km/h) MMo
Cruise[83] Mach 0.785 (453 kn; 838 km/h) Mach 0.781 (450 kn; 834 km/h) Mach 0.789 (455 kn; 842 km/h) Mach 0.79 (455 kn; 844 km/h)
Range[84] 3,235 nmi (5,991 km)[lower-alpha 3][83] 3,010 nmi (5,570 km)[lower-alpha 4] 2,935 nmi (5,436 km)[lower-alpha 5] 2,950 nmi (5,460 km)[lower-alpha 6]
Engines (× 2) CFM56-7B18/20/22:126–133 CFM56-7B20/22/24/26/27:134–149 CFM56-7B24/26/27:150–161
Thrust (× 2) 20,000–22,000 lbf
89–98 kN:126–133		 20,000–26,000 lbf
89–116 kN:134–149		 24,000–27,000 lbf
110–120 kN:150–153		 24,000–27,000 lbf
110–120 kN:154–161
Cruise max. thrust[lower-alpha 7][85] 5,960 lbf (26.5 kN) (climb)
Engine dimensions[85] Fan tip diameter: 61 in (155 cm), length: 103.50 in (263 cm)
Engine ground clearance 18 in / 46 cm:44 19 in / 48 cm:45
ICAO Type Designator[86] B736 B737 B738 B739
  1. two auxiliary tanks
  2. MTOW, sea level, ISA+20 °C
  3. 110 passengers
  4. 126 passengers
  5. 162 passengers
  6. 178 passengers
  7. 35,000 ft – Mach 0.8 – ISA

See also


Related development

Aircraft of comparable role, configuration, and era

Related lists


References



Notes



    Citations


    1. "First Boeing 737-700 Goes to Southwest Airlines" (Press release). Boeing. December 17, 1997. Archived from the original on June 9, 2018. Retrieved June 11, 2018.
    2. Hemmerdinger, Jon (April 14, 2020). "Boeing delivered final commercial 737NG in January, ending 23 years of production". Flight Global. Archived from the original on April 18, 2020. Retrieved April 15, 2020.
    3. "Boeing: Orders and Deliveries (updated monthly)". boeing.com. October 31, 2022. Archived from the original on January 12, 2021. Retrieved November 8, 2022.
    4. "Boeing: Historical Snapshot: 737". Boeing. Archived from the original on December 5, 2019. Retrieved December 5, 2019.
    5. "Leahy reflects on 33 years at Airbus". Leeham. November 28, 2017. Archived from the original on February 24, 2018. Retrieved November 29, 2017.
    6. Endres 2001, p. 132.
    7. Shaw 1999, p. 8
    8. Shaw 1999, pp. 14–15.
    9. Wilhelm, Steve. "Mindful of rivals, Boeing keeps tinkering with its 737" Archived October 26, 2012, at the Wayback Machine. Puget Sound Business Journal, August 11, 2008. Retrieved September 11, 2013.
    10. "Boeing Next-Generation 737 Carbon Brakes Earn FAA Certification" Archived January 24, 2016, at the Wayback Machine. Boeing Press Release, August 4, 2008. Retrieved August 30, 2009.
    11. Kingsley-Jones, Max (October 27, 2009). "Narrow margins: Airbus and Boeing face pressure with the A-320 and 737". Flightglobal. Archived from the original on October 31, 2009.
    12. Swatton, P. J. (2000). "Landing Speeds". Aircraft Performance Theory for Pilots. Blackwell Science. pp. 149–151. doi:10.1002/9780470693827.ch19. ISBN 978-0-470-69382-7.
    13. "Boeing Delivers First 737 with Enhanced Short Runway Package to GOL". Boeing. July 31, 2006. Archived from the original on November 29, 2014. Retrieved November 21, 2014.
    14. Sylvester, Ron (May 28, 2005). "Boeing lawsuit alleges "bogus" parts". The Seattle Times. Archived from the original on May 8, 2019. Retrieved May 8, 2019.
    15. "Report alleges faulty parts in jets". United Press International. August 21, 2006. Archived from the original on April 3, 2019. Retrieved August 22, 2006.
    16. "Appeals court sides with Boeing in whistleblower lawsuit". The Washington Times. Associated Press. June 13, 2016. Archived from the original on May 8, 2019. Retrieved May 8, 2019.
    17. "On a wing and a prayer". Al Jazeera. December 15, 2010. Archived from the original on March 30, 2019. Retrieved May 8, 2019.
    18. Charlie Harger (September 28, 2019). "Unexpected cracking found on critical Boeing 737 Next Generation part". KOMO Newsradio. Archived from the original on September 30, 2019. Retrieved October 1, 2019.
    19. Bjorn Fehrm (October 1, 2019). "Boeing's 737 in another pickle". Leeham News. Archived from the original on October 1, 2019. Retrieved October 1, 2019.
    20. "Airworthiness Directive No. 2019-20-02" (PDF). FAA. October 3, 2019. Archived (PDF) from the original on October 10, 2019. Retrieved October 10, 2019.
    21. Bjorn Fehrm (October 8, 2019). "Boeing's 737 in another pickle, Part 2". Leeham News. Archived from the original on October 10, 2019. Retrieved October 10, 2019.
    22. Tom Risen (October 10, 2019). "Boeing reports 38 cracks on global 737NG fleet". Flightglobal. Archived from the original on October 11, 2019. Retrieved October 11, 2019.
    23. Sean Broderick (November 12, 2019). "New Issue Prompts Expansion Of 737 Pickle Fork Checks". Aviation Week Network.
    24. Dominic Gates (November 19, 2019). "NTSB recommends Boeing redesign and retrofit engine casing on thousands of 737s". The Seattle Times. Archived from the original on November 20, 2019. Retrieved November 20, 2019.
    25. "Boeing ups 737 production rate". Flightglobal. September 17, 2010. Archived from the original on September 20, 2010.
    26. "Boeing to Increase 737 Production Rate to 52 per Month in 2018" (Press release). Boeing. October 2, 2014. Archived from the original on October 4, 2015.
    27. "737 derailment probe 'suggests' track alignment issue". Flightglobal. November 5, 2014. Archived from the original on November 10, 2014. Retrieved November 10, 2014.
    28. Anselmo, Joe (March 2, 2015). "Analysts Flag Potential Airliner Glut". Aviation Week & Space Technology. Archived from the original on March 4, 2015.
    29. "11th 737 MAX on the assembly line as Boeing gears up for delivery next year". Leeham News. October 11, 2016. Archived from the original on October 12, 2016.
    30. "U.S. regulator seeks to fine Boeing $5.4 million for defective parts on 737 MAX planes". Reuters. January 11, 2020. Archived from the original on January 16, 2020. Retrieved January 20, 2020.
    31. "Boeing firms up 737 replacement studies by appointing team" Archived October 22, 2007, at the Wayback Machine. Flight International, March 3, 2006. Retrieved April 13, 2008.
    32. Hamilton, Scott. "737 decision may slip to 2011: Credit Suisse" Archived June 27, 2010, at the Wayback Machine. flightglobal, 2010. Retrieved June 26, 2010.
    33. "Boeing Launches 737 New Engine Family with Commitments for 496 Airplanes from Five Airlines" (Press release). Boeing. August 30, 2011. Archived from the original on October 4, 2015. Retrieved October 1, 2019.
    34. "Boeing's 737 MAX takes wing with new engines, high hopes". The Seattle Times. January 29, 2016. Archived from the original on April 9, 2019. Retrieved October 1, 2019.
    35. Endres 2001, p. 133.
    36. "Aero 17 - Blended Winglets". Boeing. 2009. Archived from the original on June 29, 2011. Retrieved February 7, 2015.
    37. "About the 737 Family". www.boeing.com. Boeing. Archived from the original on October 7, 2014. Retrieved November 18, 2014.
    38. Shaw 1999, p. 8
    39. Peter Lemme (October 28, 2019). "Flawed Assumptions Pave a Path to Disaster". Archived from the original on November 2, 2019. Retrieved November 2, 2019.
    40. Norris & Wagner 1999, pp. 101–02.
    41. Perry, Dominic (April 7, 2015), "Boeing thinks smarter to boost 777, 737 appeal", Flightglobal, Reed Business Information, archived from the original on April 9, 2015, retrieved April 8, 2015
    42. "Boeing Sky Interior offered for 737NG retrofits - Runway Girl". December 30, 2013. Archived from the original on October 8, 2016. Retrieved February 6, 2017.
    43. Andrew Doyle, Max Kingsley-Jones, Paul Lewis, Guy Norris (May 12, 1999). "Putting the family to work". Flight International. Archived from the original on June 12, 2018. Retrieved June 11, 2018.{{cite news}}: CS1 maint: multiple names: authors list (link)
    44. "Jet Prices". Boeing. Archived from the original on August 2, 2012. Retrieved July 4, 2020.
    45. "Next-Generation 737 Production Winglets". Boeing. Archived from the original on April 28, 2008.
    46. David M. North (August 25, 1997). "Boeing 737-700 pilot report". Aviation Week & Space Technology. Archived from the original on July 27, 2020. Retrieved November 12, 2019. New 737 Shows Off Operating Improvements
    47. "Southwest Appetite for B737-700 Wanes Potentially Affecting Values". Aircraft Value News. June 11, 2018. Archived from the original on March 30, 2019. Retrieved June 11, 2018.
    48. "U.S. Naval Reserve Gets First Look at Newest Class of Aircraft" Archived May 27, 2008, at the Wayback Machine. DefenseLink (U.S. Department of Defense). Retrieved January 21, 2008.
    49. "737-700ER Technical Characteristics". Boeing. Archived from the original on February 16, 2013. Retrieved December 28, 2008.
    50. "Boeing Delivers First 737-700ER to Launch Customer ANA" (Press release). Boeing. February 16, 2007. Archived from the original on June 12, 2018. Retrieved June 11, 2018.
    51. "First Boeing Next-Generation 737-800 Goes To Hapag-Lloyd" (Press release). Boeing. April 23, 1998. Archived from the original on September 15, 2020. Retrieved January 23, 2020.
    52. James. "Aerospace Notebook: MD-80 era winding down as fuel costs rise". Seattle Post-Intelligencer, June 24, 2008. Retrieved August 30, 2009.
    53. Wilhelm, Steve. "Mindful of rivals, Boeing keeps tinkering with its 737" Archived November 11, 2013, at the Wayback Machine. Orlando Business Journal, August 11, 2008 Retrieved August 30, 2009.
    54. "Commercial airlines industry mixed on imminent emission regulations" Archived June 5, 2015, at the Wayback Machine. CNN, June 4, 2015.
    55. "End of Line B737-800 Values Show Fatigue". Aircraft Value News. September 17, 2018. Archived from the original on September 17, 2018. Retrieved September 17, 2018.
    56. "Two Early Build B737-900ERs Sold Between Lessors". Aircraft Value News. October 29, 2018. Archived from the original on November 10, 2018. Retrieved October 29, 2018.
    57. Derber, Alex (June 14, 2018). "Inside MRO: Boeing 737-800 Not Expected To Peak Until 2021". Aviation Week & Space Technology. Archived from the original on August 18, 2018. Retrieved August 17, 2018.
    58. "Latest Register and Monthly Changes". iaa.ie. Irish Aviation Authority. January 2, 2018. Archived from the original on October 23, 2017. Retrieved January 8, 2018.
    59. "Boeing launches 737-800BCF programme". Flightglobal. February 24, 2016. Archived from the original on July 25, 2018. Retrieved April 26, 2016.
    60. "Boeing delivers first 737-800BCF to West Atlantic". Flightglobal. April 20, 2018. Archived from the original on April 30, 2018. Retrieved July 25, 2018.
    61. "GECAS, Boeing Announce Agreement for 35x 737-800 Boeing Converted Freighters" (Press release). GE. July 17, 2018. Archived from the original on July 25, 2018. Retrieved July 25, 2018.
    62. "737-800BCF Boeing Converted Freighter" (PDF). Boeing. 2016. Archived (PDF) from the original on November 18, 2017. Retrieved July 25, 2018.
    63. "AEI's 12 pallet 737-800 Freighter Conversion". Aeronautical Engineers, Inc. Archived from the original on July 29, 2020. Retrieved March 25, 2021.
    64. "AEI receives FAA certification for B737-800SF". Airline Economics. February 2019.
    65. "GECAS Delivers AEI's First-Ever 737-800 Converted Freighter to Ethiopian" (Press release). GE. March 4, 2019.
    66. "AEI Receives CAAC B737-800SF Certification" (Press release). Aeronautical Engineers, Inc. January 13, 2020. Archived from the original on July 30, 2020. Retrieved March 25, 2021.
    67. Hemmerdinger, Jon (March 2, 2021). "Macquarie AirFinance orders four AEI 737-800 converted freighters". Flight Global. Archived from the original on March 4, 2021. Retrieved March 25, 2021.
    68. "FAA Type Certificate Data Sheet" (PDF). Archived (PDF) from the original on December 25, 2016. Retrieved July 1, 2015.
    69. Norris, Guy (February 6, 2006). "THE 737 STORY: The Long Stretch". Flight Global. Retrieved June 18, 2022.
    70. "Air Force identifies Boeing E-7 as solution to replace the E-3 capability". Air Force. Retrieved April 27, 2022.
    71. "P-8A Multi-mission Maritime Aircraft (MMA) fact file" Archived July 11, 2007, at the Wayback Machine. US Navy, February 17, 2009.
    72. "FARNBOROUGH 2008: Boeing 737 embarks on its Poseidon adventure" Archived January 24, 2016, at the Wayback Machine. Flight International, July 15, 2008.
    73. Endres 2001.
    74. "The Boeing 737-700/800 BBJ/BBJ2" Archived March 15, 2008, at the Wayback Machine. airliners.net, February 3, 2008. Retrieved August 30, 2009.
    75. "Boeing: Boeing Business Jets". www.boeing.com. Archived from the original on September 6, 2016. Retrieved September 7, 2016.
    76. "Boeing BBJ 3". Business Jet Traveler. November 7, 2016. Archived from the original on December 5, 2019. Retrieved December 5, 2019.
    77. "World Airline Census 2018". Flightglobal.com. Archived from the original on November 6, 2018. Retrieved August 21, 2018.
    78. "Boeing 737-600". Archived from the original on September 15, 2020. Retrieved January 23, 2020., "737-700". Archived from the original on September 15, 2020. Retrieved January 23, 2020., "737-800". Archived from the original on February 19, 2020. Retrieved January 23, 2020., "737-900 Statistics". Aviation Safety Network. January 17, 2020. Archived from the original on September 15, 2020. Retrieved January 23, 2020.
    79. "Statistical Summary of Commercial Jet Airplane Accidents – Accident Rates by Airplane Type" (PDF). www.boeing.com. Boeing. October 2018. p. 19. Archived (PDF) from the original on November 1, 2014. Retrieved November 20, 2019.
    80. "Boeing 737 Airplane Characteristics for Airport Planning" (PDF). Boeing Commercial Airplanes. September 2013. Archived (PDF) from the original on February 7, 2015. Retrieved December 8, 2016.
    81. "Type Certificate Data Sheet" (PDF). FAA. June 3, 2016. Archived (PDF) from the original on December 20, 2016. Retrieved December 8, 2016.
    82. "Civil jet aircraft design". Elsevier. 2001. Aircraft Data File - Boeing Aircraft. Archived from the original on January 27, 2017. Retrieved December 8, 2016.
    83. "Next-Generation 737 Family Backgrounder" (PDF). Boeing. February 2015. Archived (PDF) from the original on December 15, 2017. Retrieved December 10, 2016.
    84. "Boeing revises "obsolete" performance assumptions". Flight Global. August 3, 2015. Archived from the original on October 5, 2016. Retrieved December 8, 2016.
    85. "CFM56-7B" (PDF). Safran/Snecma. March 2011. Archived (PDF) from the original on December 20, 2016. Retrieved December 10, 2016.
    86. "DOC 8643 – Aircraft Type Designators". ICAO. Archived from the original on July 10, 2017. Retrieved November 21, 2017.

    Bibliography




    Wikimedia Commons has media related to Boeing 737 Next Generation.

    На других языках

    - [en] Boeing 737 Next Generation

    [it] Boeing 737 Next Generation

    Il Boeing 737 Next Generation, comunemente abbreviato in Boeing 737 NG, è un aereo a fusoliera stretta per il corto-medio raggio prodotto dalla statunitense Boeing dal 1996. Il 737 Next Generation è prodotto in quattro differenti varianti, 737-600, 737-700, 737-800 e 737-900, che si differenziano per dimensioni e quindi capacità: la serie 737-600 ha una capacità massima di 130 posti a sedere, la serie 737-700 di 148, la serie 737-800 di 189 e la serie 737-900 di 220 posti a sedere. La 737 NG è la terza generazione aeromobile derivata dal Boeing 737, segue il 737 Classic (-300/-400/-500), prodotta tra 1981 e il 2000 e precede la generazione 737 MAX.

    [ru] Boeing 737 Next Generation

    Boeing 737 Next Generation (обычно сокращаемое до Boeing 737NG) — обозначение моделей −600/-700/-800/-900 самолёта Boeing 737. Серия стала третьим поколением модели 737 и сменила в производстве модель 737 Classic (−300/-400/-500), производство которой началось в середине 1980-х годов. Модель является ближне- и среднемагистральным узкофюзеляжным реактивным самолётом. Производимый с 1996 года компанией Boeing, 737NG продаётся в четырёх вариантах пассажировместимости (обычно от 110 до 210 пассажиров).


    Текст в блоке "Читать" взят с сайта "Википедия" и доступен по лицензии Creative Commons Attribution-ShareAlike; в отдельных случаях могут действовать дополнительные условия.

    Другой контент может иметь иную лицензию. Перед использованием материалов сайта WikiSort.org внимательно изучите правила лицензирования конкретных элементов наполнения сайта.

    2019-2024
    WikiSort.org - проект по пересортировке и дополнению контента Википедии