Английская Википедия:Aviadvigatel PD-14
Шаблон:Infobox aircraft engine
The Aviadvigatel PD-14 (previously known as PS-12) is a high-bypass turbofan being developed by Aviadvigatel to power the Irkut MC-21 twin-jet airliner. It is a 14 tf (30,865 lbf) thrust powerplant.
Development
In December 2009, the PD-14 was developed to be 15% more efficient than its PS-90A2 predecessor to be installed on the MS-21 and the Ilyushin Il-276.[1]
The PD-14 was announced in early 2010 with its development cost estimated at RUB 35 billion (US$1.1 billion).[2] In April 2010, Aviadvigatel was expecting to start its certification procedure in 2012.[3] Its core was first tested on 26 November 2010.[4] It was displayed for the first time at the 2013 MAKS air show.[5]
Flight tests began in 2015 on an Ilyushin Il-76.[6] Between December 2016 and May 2017, the PD-14 operational performance and working efficiency at all altitudes and speeds were assessed on the Il-76 testbed aircraft at Gromov Flight Research Institute near Moscow.[7] After two years exploring performance at most altitudes, airspeeds and operating modes, the first and second testing stages confirmed its basic operating parameters. A third phase of flight tests debuted in January 2018 from the GFRI Zhukovsky Airfield, conducted in co-operation with certification specialists to formally confirm the pre-certification efforts findings.
Ground tests will continue in parallel, and United Engine Corporation claims that the engine matches the performance of products from foreign competitors and surpasses them for noise and emissions.[8] Bird strike tests on the fan, including high-speed video and vibration measurements, were conducted together with fan blade strength tests. The successful results are expected to reduce the time and cost of attaining full certification status.[9]
United Engine was to deliver five PD-14s to Irkut by the end of 2018, and after Rosaviatsia certification, to start flight tests on the MC-21 in 2019 for type certification of the variant in 2021.[10] EASA certification is expected when it will enter series production.[11] In October 2018, Rosaviatsia granted certification to the PD-14, and deliveries of the first engines for two MC-21s were expected by the end of 2018. European certificate validation was planned for 2019.[12]
In January 2020, Irkut received the first PD-14 engines to be installed on the MC-21 airliner,[13] and the first PD-14-powered MC-21-310 made its maiden flight on 15 December 2020 from Irkutsk.[14]
In October 2021, the engine successfully passed landmark volcanic ash exposure tests. According to Anatoly Serdyukov, the thrust of the PD-14 “practically did not decrease” after the engine was exposed to the presence of the ash for 1 hour.[15]
Design
The 1.9 m (75 in) fan has 18 titanium alloy blades, providing an 8.5:1 bypass ratio significantly improved from previous Russian engines, but below the CFM LEAP's 10:1 or the Pratt & Whitney PW1000G's 12:1 for the MC-21 from 2017. The 3D aerodynamics shaped first high-pressure turbine stage has advanced cooling channels.[5] Twenty new materials were developed for the powerplant, including monocrystalline alloys for vanes, and high-strength nickel and titanium alloys for shafts and disks.[12]
Developed from the PS-12 (an uprated PS-90A), the 122–153 kN (27,500-34,500 lbf) thrust powerplant is designed by Aviadvigatel and manufactured by the Perm Engine Company. The two-shaft turbofan has a high-pressure core from the PS-12 with an eight-stage compressor and a two-stage turbine, and four low-pressure stages. The high-bypass engine does not employ an exhaust mixer, fuel burn should be reduced by 10–15% from the CFM International CFM56 and it could power an upgraded Tupolev Tu-204.Шаблон:Citation needed
Proposed derivatives
- PD-8 is a derated model at 78 kN (17,500 lbf) for the Sukhoi Superjet 100, Beriev Be-200, and Ilyushin Il-212.[16][17][18] As of mid-2022, a PD-8 prototype had successfully completed ground testing, and had conducted its first flight test installed on an Ilyushin Il-76 aircraft.[19][20] Anticipated certification has been pushed to 2024.[21]
- PD-8V turboshaft 6.8 7.68 – 9680 shp for Mi-24/35 8/17 and other medium heavy heli
- PD-10 is a derated model for the Sukhoi Superjet 130 at Шаблон:Cvt.[22]
- PD-12V: turboshaft variant for the Mil Mi-26 heavy lift helicopter, development started in 2016,[23] 11,500 shp (up to 14,500 shp).[24]
- PD-14А, derated modification of the engine to Шаблон:Cvt for Irkut МС-21-200 , also it could replace 12 tf Soloviev D-30 powering the Beriev A-40 aircraft.
- PD-14M, uprated to Шаблон:Cvt, and PD-16, uprated to Шаблон:Cvt, with more Шаблон:Abbr compressor and turbine stages, for the Irkut МС-21-400 stretch to 230-seat and its long-range derivative with a Шаблон:Cvt cruise Thrust-specific fuel consumption; and could replace the 16-tf PS-90A powering the Tupolev Tu-204/214 narrowbody, the Ilyushin Il-96-300 widebody, and the Il-76M-90A freighter.[25]
- PD-18R geared turbofan,[5][26] Шаблон:Cvt, it could reach a cruise Thrust-specific fuel consumption of Шаблон:Cvt and could replace the Шаблон:Cvt PS-90A1 on the Il-96-400T freighter.[25]
- PD-35: Шаблон:Cvt for the CRAIC CR929, possibly for Antonov An-124, and its replacement Ilyushin Il-106 PAK VTA.
PD-35
Launched in the summer of 2016 by United Engine Corporation through Aviadvigatel and NPO Saturn, the Шаблон:Cvt thrust PD-35 will be developed until 2025[27] for 180 billion rubles ($3 billion) including 60 billion for test benches and laboratory equipment, to power future wide-body aircraft including the Russo-Chinese CRAIC CR929. The Шаблон:Cvt long engine will weigh Шаблон:Cvt, its fan will be Шаблон:Cvt in diameter and its scaled up PD-14 core will have a nine-stage high-pressure compressor and two-stage turbine.[28]
On 19 January 2018, the Russian government awarded UEC-Aviadvigatel a ₽64.3 billion ($1.13 billion) contract to develop a PD-35-1 demonstrator by 2023, including wide-chord composite fan blades and fan case, a 23:1 compressor pressure ratio, ceramic matrix composites – silicon carbide-silicon carbide (SiC-SiC) and carbon-silicon carbide (C-SiC) – and advanced cooling for 1,450 °C (2,640 °F) temperatures. It could power the Ilyushin IL-96-400, the Il-76 airlifter, Il-78 tanker and an Antonov An-124 replacement Ilyushin Il-106 PAK VTA.[29] A de-rated version would meet the An-124 thrust requirements.[30]
As of the end of 2022, the PD-35 was postponed until at least 2029.[31]
Applications
- PD-8: Sukhoi Superjet 100, Beriev Be-200, Ilyushin Il-212
- PD-10: Sukhoi Superjet 130
- PD-12V: Mil Mi-26
- PD-14: Irkut MC-21, Ilyushin Il-276
- PD-35 : CRAIC CR929, Ilyushin Il-96, Ilyushin Il-106 PAK VTA
Specifications
| Model | PD-8 | PD-10 | PD-14A | PD-14 | PD-14M |
|---|---|---|---|---|---|
| Configuration | Twin-spool high bypass turbofan | ||||
| Take-off thrust | Шаблон:Cvt | Шаблон:Cvt | Шаблон:Cvt | Шаблон:Cvt | Шаблон:Cvt |
| Dry weight | Шаблон:Cvt | Шаблон:Cvt | Шаблон:Cvt | ||
| Fan diameter | Шаблон:Cvt | Шаблон:Cvt | |||
| Compressor | 1 fan + 1 LP + 8 HP | 1 fan + 3-stage LP + 8-stage HP | 1 fan + 4 LP + 8 HP | ||
| Combustor | Annular | ||||
| Turbine | 2 HP + 5 LP | 2-stage HP + 6-stage LP | |||
| BPR[32] | 8.6 | 8.5 | 7.2 | ||
| OPR[32] | 38 | 41 | 46 | ||
| TSFC[32] | Шаблон:Cvt in cruise | ||||
| Thrust-to-weight ratio | 4.64 | 4.36 | 4.88 | 5.25 | |
| Application | SSJ-New | Superjet 130 | МС-21-200 | MC-21-310 | MC-21-400 |
See also
References
External links
- ↑ Шаблон:Cite news
- ↑ Шаблон:Cite news
- ↑ Шаблон:Cite press release
- ↑ Шаблон:Cite news
- ↑ 5,0 5,1 5,2 Шаблон:Cite news
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- ↑ 12,0 12,1 Шаблон:Cite news
- ↑ Шаблон:Cite news
- ↑ Шаблон:Cite news
- ↑ Шаблон:Cite web
- ↑ Шаблон:Cite web
- ↑ Шаблон:Cite web
- ↑ Шаблон:Cite web
- ↑ Шаблон:Cite web
- ↑ Шаблон:Cite web
- ↑ Шаблон:Cite web
- ↑ 22,0 22,1 Шаблон:Cite web
- ↑ Шаблон:Cite press release
- ↑ Шаблон:Cite news
- ↑ 25,0 25,1 Шаблон:Cite news
- ↑ Шаблон:Cite web
- ↑ Шаблон:Cite news
- ↑ Шаблон:Cite news
- ↑ Шаблон:Cite news
- ↑ Шаблон:Cite news
- ↑ Шаблон:Cite web
- ↑ 32,0 32,1 32,2 Шаблон:Cite magazine
