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The Comac ARJ21 is a medium jet manufactured by the Chinese company Comac.It has capacity from 78 to 90 seats and made its first flight on 2008
The Comac ARJ21 Xiangfeng (Chinese: 翔凤; pinyin: xiángfèng; lit. 'Soaring Phoenix') is a 78–90 seat regional jet manufactured by the Chinese state-owned aerospace company Comac. Development of the ARJ21 (Advanced Regional Jet) began in March 2002, the first prototype was rolled out on 21 December 2007, and made its maiden flight on 28 November 2008 from Shanghai. It received its CAAC Type Certification on 30 December 2014 and was introduced on 28 June 2016 by Chengdu Airlines. Resembling the McDonnell Douglas MD-80/MD-90 produced under licence in China, it features a 25° swept, supercritical wing designed by Antonov and twin rear-mounted General Electric CF34 engines. 66 aircraft had been delivered by the end of 2021.
| ARJ21 Xiangfeng | |
|---|---|
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| ARJ21-700 in flight at the Zhuhai Air Show (2010). | |
| Role | Regional jet |
| Manufacturer | Comac |
| Design group | AVIC I Commercial Aircraft Company (ACAC) |
| First flight | 28 November 2008 |
| Introduction | 28 June 2016 with Chengdu Airlines[1] |
| Status | In production, in service |
| Primary user | Chengdu Airlines[2] |
| Produced | 2007–present[3] |
| Number built | 73[3] |
Development
Joy Air ARJ21 Model at the 2008 China Airshow
The development of the ARJ21 (Advanced Regional Jet) is a key project in the "10th Five-Year Plan" of China. It began in March 2002 and was led by the state-owned ACAC consortium. The maiden flight of the ARJ21 was initially planned to take place in 2005 with commercial service beginning 18 months later.[4] The programme became eight years behind schedule.[5] The design work was delayed and the final trial production stage did not begin until June 2006.[6]
The first prototype (serial number 101) rolled out on 21 December 2007,[7] with a maiden flight on 28 November 2008 at Shanghai's Dachang Airfield. The aircraft completed a long-distance test flight on 15 July 2009, flying from Shanghai to Xi'an in 2 hours 19 minutes, over a distance of 1,300 km. The second ARJ21 (serial number 102) completed the same test flight route on 24 August 2009. The third aircraft (serial number 103) similarly completed its first test flight on 12 September 2009.[8] The fourth aircraft (CN 104) flew by November 2010. By August 2011, static, flutter and crosswind flight tests had been completed.[9]
The ARJ21 is a small jet aircraft that looks similar to the MD-80, which was licensed to be built in China. COMAC claims that it is an original design, part of which was created by supercomputers in China.[10] The ACAC consortium was reorganized in 2009 and became a part of COMAC.[11]
Key flight tests and CAAC certification
AC104 returned to China on April 28, 2014, after completing natural-icing tests in North America. This was the first time a turbofan-powered regional jet independently developed by China had flown abroad to carry out flight tests in special weather conditions. At the same time, other flight-test aircraft covered more than 30,000 km across Asia, America, Europe, and the Pacific and Atlantic oceans. Natural-icing tests are required for airworthiness certification, and conducting these tests outside China showed it was feasible to do certification tests for civil aircraft in other countries.[12]
The first production aircraft flew on 18 June 2014.[5] and AC104 completed an airspeed calibration flight on October 30. Route-proving started on October 29, 2014, and AC105 made 83 flights between ten airports in Chengdu, Guiyang, Guilin, Haikou, Fuzhou, Zhoushan, Tianjin, Shijiazhuang, Yinchuan and Xianyang. The cumulative flight time was 173 hours and 55 minutes.[13] By November 2014, AC104 had completed 711 flights in 1,442 hours and 23 minutes. Certification tests included stall, high-speed, noise and simulated and natural icing.[14] AC105 returned to Yanliang airport on December 16, 2014, from Xi'an Xianyang International Airport after the last function and reliability flight. This completed the testing for the ARJ21-700 airworthiness certificate.
The ARJ21-700 received its Type Certification under Chapter 25 of the Chinese civil aviation regulations from the Civil Aviation Administration of China (CAAC), on December 30, 2014.[15] The certification program for the CAAC required 5,000 hours.[16] An ARJ21-700 completed a final demonstration flight on 12 September 2015 before being delivered to a customer.
Introduction
On 29 November 2015, COMAC delivered the first ARJ21-700 to Chengdu Airlines.[17] The first commercial flight took off from Chengdu Shuangliu Airport on June 28, 2016, landing in Shanghai two hours later.[18][19] one day after its commercial flight was approved by the CAAC. During the summer schedule period of 2016, i.e. until October 29, 2016, the ARJ21-700 was scheduled to operate three weekly rotations between Chengdu and Shanghai Hongqiao. 85 flight segments were operated by ARJ21 (81 by B-3321, four by B-3322).
Further developments
In June 2018 an ARJ21-700+ was proposed for 2021 with weight and drag reductions. Subsequently, a -900 stretch version was designed to accommodate 115 all-economy seats, similar to the Bombardier CRJ900, Embraer E175-E2 or Mitsubishi MRJ90. Structurally conservative and designed for hot and high operations, the ARJ21's 25 t (55,000 lb) empty weight is higher than initially targeted in 2002, and also higher than competing aircraft. In 2018 an executive version was in final assembly and a cargo variant was proposed.[20]
Production
In early July 2017, the CAAC certified the ARJ21 for mass production.[21] On 6 March 2020, the first ARJ21 assembled at the second production line in Pudong, took its first production test flight.[22] The second production line, with a production capacity of up to 30 jets a year, is located at the same facility that assembles the C919.[22]
Design
Different sources claim the ARJ21 closely resembles either the McDonnell Douglas MD-80 or the MD-90 which were produced under licence in China.[23][24] Comac states that the ARJ21 is a completely indigenous design.[25][26][27] The ARJ21's development did depend heavily on foreign suppliers, including engines and avionics from the United States. The ARJ21 has a new supercritical wing designed by Ukraine's Antonov Design Bureau with a sweepback of 25 degrees and winglets.[28][29][30] Some of China's supercomputers have been used to design parts for ARJ21.[31]
Manufacturers
Members of the ACAC consortium, which was formed to develop the aircraft, will manufacture major components of the aircraft:
- Chengdu Aircraft Industry Group: construction of the nose
- Xi'an Aircraft Company: construction of the wings and fuselage; wing designed by Antonov State Company in Ukraine.
- Shenyang Aircraft Corporation: construction of the empennage
- Shanghai Aircraft Company: final assembly
- General Electric: CF-34 turbofan[32]
- Rockwell Collins: Avionics
- Various domestic and international suppliers of component's suppliers.[33][34]
Variants
- ARJ21-700
- Baseline model which has a capacity of 70 to 95 passengers.
- ARJ21-900
- Stretched fuselage model based on the ARJ21-700, which will have a capacity of 95 to 105 passengers.
- ARJ21F
- Planned dedicated freighter version of the ARJ21-700. It will have a capacity of five LD7 containers or PIP pallets, with a maximum payload of 10,150 kg.
- ARJ21B
- Planned business jet version of the ARJ21-700. A typical configuration would cater for 20 passengers.
Operators
Chengdu Airlines' ARJ21 at Shanghai Hongqiao International Airport in 2019
The first ARJ21 for Air China was delivered on 28 June 2020
OTT Airlines' ARJ21
As of October 2018, there were six aircraft in commercial service with an average monthly utilization rate of around 30 hours.[16]
By then end of 2021, 66 aircraft had been delivered to customers.[35]
Orders and deliveries
As of 31 August 2018, Comac had 221 outstanding orders, after 23 deliveries to launch operator Chengdu Airlines who put it in service on 28 June 2016.[36]
Executing Orders[37]
| Date | Airline | Confirmed
(+Options) | Deliveries | ||||||
|---|---|---|---|---|---|---|---|---|---|
| 2015 | 2016 | 2017 | 2018 | 2019 | 2020 | 2021 | |||
| August 30, 2019 |  Air China |
35 | 3 | 4 | |||||
| January 2010 | Chengdu Airlines |
30 | 1 | 1 | 2 | 6 | 7 | 6 | 6 |
| August 30, 2019 | OTT Airlines (Subsidiary of China Eastern Airlines) |
35 | 2 | 5 | |||||
| November 2020 | China Express Airlines |
50 | 2 | 1 | |||||
| August 30, 2019 | China Southern Airlines |
35 | 3 | 4 | |||||
| December 2019 | China Flight General Aviation Company (CFGAC) |
2 | 1 | 1 | |||||
| August 20, 2018 | Genghis Khan Airlines |
25(+25) | 3 | 2 | |||||
| January 2020 | Jiangxi Air |
5 | 3 | 2 | |||||
| Urumqi Air |
5 | ||||||||
| Totals | 167(+25) | 1 | 1 | 2 | 6 | 11 | 21 | 22 | |
| 66 | |||||||||
Reported Orders
| Date | Airline | Type | Options | Rights | |
|---|---|---|---|---|---|
| ARJ21-700 | ARJ21B | ||||
| September 2003 | Shanghai Airlines[38] |
5 | |||
| Shandong Airlines[38] |
10 | ||||
| Shenzhen Financial Leasing[38] |
20 | ||||
| March 2004 | Xiamen Airlines[39][a] |
37[citation needed] | |||
| December 2007 | |
||||
| December 2007 |  9nes[42][43] |
2 | |||
| March 2008 |  GECAS[44] |
5 | 20 | ||
| Joy Air[45] |
50 | ||||
| May 2010 |  Merukh Enterprises[46] |
10 | |||
| November 11, 2014 |  Republic of Congo[47] |
4 | |||
| March 9, 2015 | ICBC Leasing[48] |
30 | |||
| August 30, 2019 | China Eastern Airlines[49] |
35 | |||
| November 2021 | TransNusa[50] |
30 | |||
| Totals | 238 Orders | 20 | |||
- Although the Xiamen order for six was reported in some press as firm, ACAC's own web site still shows them as "options"
An Indonesian airline will fly with its entire fleet consisting of 60 ARJ21 aircraft, although as of now that airline is not specified.[51]
Specifications
| ARJ21-700 | ARJ21-900 | |
|---|---|---|
| Cockpit crew | Two | |
| Seating capacity | 90 (1-class) 78 (2-class) |
105 (1-class) 98 (2-class) |
| Seat pitch | 31 in (1-class), 36 & 32 in (2-class) | |
| Length | 33.46 m (109 ft 9 in) | 36.35 m (119 ft 3 in) |
| Wingspan | 27.28 m (89 ft 6 in) | |
| Wing area | 79.86 m2 (859.6 sq ft) | |
| Wing sweepback | 25 degrees | |
| Height | 8.44 m (27 ft 8 in) | |
| Cabin width | 3.14 m (10 ft 4 in) | |
| Cabin height | 2.03 m (6 ft 8 in) | |
| Aisle width | 48.3 cm (19.0 in) | |
| Seat width | 45.5 cm (17.9 in) | |
| OEW | 24,955 kg (55,016 lb) | 26,270 kg (57,920 lb) STD 26,770 kg (59,020 lb) ER |
| MTOW | 40,500 kg (89,300 lb) STD 43,500 kg (95,900 lb) ER |
43,616 kg (96,157 lb) STD 47,182 kg (104,019 lb) ER |
| Cargo capacity | 20.14 m3 (711 cu ft) | - |
| Take-off run at MTOW | 1,700 m (5,600 ft) STD 1,900 m (6,200 ft) ER |
1,750 m (5,740 ft) STD 1,950 m (6,400 ft) ER |
| Service ceiling | 11,900 m (39,000 ft) | |
| Max. operating speed | Mach 0.82 (870 km/h, 470 kn, 541 mph) | |
| Normal cruise speed | Mach 0.78 (828 km/h, 447 kn, 514 mph) | |
| Range (fully loaded) | 1,200 NM (2,200 km; 1,400 mi) STD 2,000 NM (3,700 km; 2,300 mi) ER |
1,200 NM (2,200 km; 1,400 mi) STD 1,800 NM (3,300 km; 2,100 mi) ER |
| Maximum fuel load | 10,386 kg (22,897 lb) | - |
| Powerplants (2x) | General Electric CF34-10A[52] | |
| Engine thrust | 75.87 kN (17,057 lbf) | 82 kN (18,500 lbf) |
- Notes: Data are provided for reference only. STD = Standard Range, ER = Extended Range
- Sources: ARJ21 Series,[53] ICAS[54]
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