Ilchenko Il-31: Difference between revisions
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{|{{Infobox aircraft begin | {|{{Infobox aircraft begin | ||
| name = | | name = Ilchenko Il-31 | ||
| image = [[File:CombatTask2017-08.jpg|300px]] | | image = [[File:CombatTask2017-08.jpg|300px]] | ||
| caption = | | caption = | ||
Line 8: | Line 8: | ||
|national origin = [[Chervolesia]] | |national origin = [[Chervolesia]] | ||
|manufacturer = [[Aero Pereval]] | |manufacturer = [[Aero Pereval]] | ||
|designer = | |designer = Ilchenko Design Bureau | ||
|first flight = 1976 | |first flight = 1976 | ||
|introduced = 1977 | |introduced = 1977 | ||
Line 19: | Line 19: | ||
|program cost = | |program cost = | ||
|unit cost = | |unit cost = | ||
|developed from = {{wp|Yakolev Yak-38| | |developed from = {{wp|Yakolev Yak-38|Ilchenko Izd 52}} | ||
|variants with their own articles = | |variants with their own articles = | ||
}} | }} | ||
|} | |} | ||
The ''' | The '''Ilchenko Il-31''' ({{wp|Rusyn language|Narodyn}}: Ілченко Іл-31; [[Asterian Forum for Development and Cooperation|AFDC reporting name]]: '''Falchion''') is a single-seat {{wp|aircraft carrier|carrier-based}} all-weather {{wp|attack aircraft}} developed by Potapov Design Bureau and manufactured by [[Aero Pereval]]. | ||
The | The Il-31 was developed from the experimental {{wp|vertical take-off and landing}} (VTOL) {{wp|Yakolev Yak-38|Izd 52}} after the latter was rejected by the [[People's Liberation Army Navy]]. This new design was quickly adopted as a light and economical supplement to the [[Ilchenko Il-28|Ilchenko Il-29]] strike fighter in-service with both carrier aviation and ground-based squadrons. At the time of its adoption in 1977, it was the first [[Chervolesia|Chervolesian]] combat aircraft to be outfitted with a fuel-efficient {{wp|turbofan}} engine. | ||
367 frames would be produced over the course of its 26 year production lifespan. Six main variants would be developed: the base | 367 frames would be produced over the course of its 26 year production lifespan. Six main variants would be developed: the base Il-31 introduced in 1977, the land-based Il-33 introduced in 1979, the Il-31M introduced as a midlife upgrade in 1989, the Il-33M introduced in 1989, the further improved Il-31MU introduced in 2000, and Il-33MU introduced in 2001. The Il-31 remains in active service with the People's Liberation Army Navy and several other nations around the [[Kylaris|world]]. | ||
==Design and development== | ==Design and development== | ||
===Design and testing=== | ===Design and testing=== | ||
[[File:Yak-38 Forger Gear Down.jpg|225px|right|thumb|Izd 52 during its first and only test flight in 1971.]] | [[File:Yak-38 Forger Gear Down.jpg|225px|right|thumb|Izd 52 during its first and only test flight in 1971.]] | ||
Over the course of the 1960s and early 1970s, Potapov built a series of experimental {{wp|vertical take-off and landing}} (VTOL) fighters intended to replace the [[ | Over the course of the 1960s and early 1970s, Potapov built a series of experimental {{wp|vertical take-off and landing}} (VTOL) fighters intended to replace the [[Ilchenko Il-28]] in service with the [[People's Liberation Army Navy]]. These designs ultimately led to the {{wp|Yakolev Yak-38|Ilchenko Izd 52}} (''Ilchenko Test Object No. 52''), which conducted its first test flight in 1971. Not wanting to abandon its nascent {{wp|CTOL|conventional take-off and landing}} (CTOL) {{wp|aircraft carrier}} program to be abandoned in favour of less capable {{wp|Aircraft cruiser|aviation cruisers}}, the People's Liberation Army Navy rejected Ilchenko's design. The reasoning given for the Izd 52's rejection was its poor hardpoint load capacity, which was rated at only 2,000 kg (4,400 lb). The Izd 52's was only designed with four hardpoints, one or two of which would already be in use by mounting a {{wp|Gryazev-Shipunov GSh-23|UKP-23-250}} {{wp|gun pod}}. This left only two hardpoints free at any given time, which was determined by People's Liberation Army Navy representatives as being too few for any serious combat missions. | ||
In a rare case of [[Chervolesia|Chervolesian]] defence industry initiative, | In a rare case of [[Chervolesia|Chervolesian]] defence industry initiative, Ilchenko attempted to salvage the Izd 52 design by converting the aircraft into a CTOL trainer as a replacement for the [[Lasyuk La-20|La-20UTI]] that had been in service since 1953. A single-seat, light strike fighter variant was derived from the initial design as an afterthought for export. Both the trainer and strike derivative received the {{wp|OKB}} designation Po-108. The resulting design resembled the Izd. 52 externally, but had a shorter hull due to the removal of the {{wp|lift fan|lift fans}} (as they were no longer required), and wider wings that gave the design good low speed flight characteristics. The hardpoints were also improved, being able to carry 800 kg (1,765 lb) of ordnance; improving the overall capacity of the aircraft to 3,200 kg (7,055 lb) | ||
A new engine needed to be selected for the new design. There was also some debate at the design bureau as to whether the new aircraft should be a twin-engine or single-engine configuration. Ruslan Kulagin, chief designer and project lead for the | A new engine needed to be selected for the new design. There was also some debate at the design bureau as to whether the new aircraft should be a twin-engine or single-engine configuration. Ruslan Kulagin, chief designer and project lead for the Il-108, was initially favorable to a single-engine design; believing the single-engine would help reduce cost, minimize the aircraft's weight, and increase maneuverability. Past experience with single-engine aircraft like the La-20 and {{wp|MiG-17|MyL-18}} had revealed that relatively frequent problems with burnouts and other failures, in part due to the inconsistent quality of Chervolesian produced engines. A twin-engine design was ultimately chosen, as the failure of one of the two engines would still allow the aircraft to return to base. The engine chosen for the Il-108 was a {{wp|afterburning|reheated}} {{wp|Ivchenko AI-25|Osokin AM-32}}, the AM-32 being a tried engine that enjoyed both domestic and export success. The reheated engine allowed the aircraft to be {{wp|transonic}}, giving a speed of Mach 1.3 at altitude. | ||
The | The Il-108 first flew in the summer of 1976 at the Rzhavets Proving Grounds. Flight tests showed the Il-108 possessed great agility and excellent low altitude flight characteristics. With the new engines, a combat radius of 800 km (500 mi) was achieved with a full external payload, almost as much as the in-service Il-35 and with only a 20% reduction in payload size. Although Chervolesian naval aviation had no real requirement, the Il-108's simplicity and compact size made it an attractive choice. Unlike the Il-28, the Il-108 was capable of flying low-low-low mission profiles, allowing it to evade much of the [[Asterian Forum for Development and Cooperation|AFDC]]'s defensive measures, which were tailor made to counter high-altitude saturation strikes. Based on these considerations, the Il-108 was commissioned as the Il-31 in 1977. | ||
===Production=== | ===Production=== | ||
The | The Il-108's final prototype was ordered into production in September, 1977, with 100 airframes ordered by the [[People's Liberation Army Navy]], half of which were to be trainers. Deliveries were processed between 1978 and 1979, with the first full-strength Il-31 squadron being stationed to the ''Volosovo'' on 19 May, 1978. The initial order was completed on 31 October, 1979, and a follow up order for an additional 100 aircraft was placed the following day. | ||
==Design== | ==Design== | ||
===Armament=== | ===Armament=== | ||
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===Ajahadyan Service=== | ===Ajahadyan Service=== | ||
The | The Il-31 first saw combat in the closing weeks of the [[Third Satarian War]], as the [[Ajahadyan Air Force]], having taken serious losses since the start of the war, placed an order for the first ten planes off the production line as a stop-gap measure, reportedly paying almost double the production cost of each plane in exchange for the higher priority in delivery. | ||
Upon delivery on 19th January 1978, Ajahadyan mechanics immediately de-navalised the aircraft, removing catapult attachment points and the tailhook and modifying the plane's electrical suite. The ten planes, formed into [[220 Squadron (Ajahadyan Air Force)|220 Squadron]], first flew on February 16th 1978 with training being completed by late March. The 220 Squadron was formed from veteran pilots of [[22 Squadron (Ajahadyan Air Force)|22 Squadron]], who had previously piloted the xx plane. 22 Squadron would provide close air support during [[Operation Praavh]], the last Ajahadyan offensive of the war, successfully destroying a minimum of 4 [[Subarnan]] | Upon delivery on 19th January 1978, Ajahadyan mechanics immediately de-navalised the aircraft, removing catapult attachment points and the tailhook and modifying the plane's electrical suite. The ten planes, formed into [[220 Squadron (Ajahadyan Air Force)|220 Squadron]], first flew on February 16th 1978 with training being completed by late March. The 220 Squadron was formed from veteran pilots of [[22 Squadron (Ajahadyan Air Force)|22 Squadron]], who had previously piloted the xx plane. 22 Squadron would provide close air support during [[Operation Praavh]], the last Ajahadyan offensive of the war, successfully destroying a minimum of 4 [[Subarnan]] tanks according to Subarnan claims and 23 tanks according to Ajahadyan claims. The field-modified Il-31 used by Ajahadya would form the basis for the successful Il-33 introduced later that same year of which Ajahadya would order 190 to be delivered in four batches of 40 to be delivered over the next four years and a final batch of 30 to be produced under license in Ajahadya itself. | ||
The | The Il-33, upgraded to Il-33M from 1991 to 1992 and Il-33MU from 2000 to 2002 remains in Ajahadyan service to the present day with the original 220 Squadron, as well as 221, 222 and 223 Squadrons, each with 50 Il-33MU for a total of 200 Il-33MU in active frontline service, with another 15 trainers. | ||
==Operators== | ==Operators== | ||
*{{flag|Ajahadya}} | |||
**[[Ajahadyan Air Force]] | |||
*{{flag|Chervolesia}} | *{{flag|Chervolesia}} | ||
**[[People's Liberation Army Navy]] | **[[People's Liberation Army Navy]] | ||
*{{flag| | *{{flag|Maracao}} | ||
**[[ | **[[Revolutionary Air Force of Maracao|Revolutionary Air Force]] | ||
==Specifications ( | ==Specifications (Il-31MU)== | ||
[[File:Potapov Po-40 3-view.png|500px|right]] | [[File:Potapov Po-40 3-view.png|500px|right]] | ||
Latest revision as of 23:27, 25 February 2020
Ilchenko Il-31 | |
---|---|
Role | Attack aircraft |
National origin | Chervolesia |
Manufacturer | Aero Pereval |
Designer | Ilchenko Design Bureau |
First flight | 1976 |
Introduction | 1977 |
Status | In service |
Primary user | People's Liberation Army Navy |
Produced | 1977-2003 |
Number built | 567 |
Developed from | Ilchenko Izd 52 |
The Ilchenko Il-31 (Narodyn: Ілченко Іл-31; AFDC reporting name: Falchion) is a single-seat carrier-based all-weather attack aircraft developed by Potapov Design Bureau and manufactured by Aero Pereval.
The Il-31 was developed from the experimental vertical take-off and landing (VTOL) Izd 52 after the latter was rejected by the People's Liberation Army Navy. This new design was quickly adopted as a light and economical supplement to the Ilchenko Il-29 strike fighter in-service with both carrier aviation and ground-based squadrons. At the time of its adoption in 1977, it was the first Chervolesian combat aircraft to be outfitted with a fuel-efficient turbofan engine.
367 frames would be produced over the course of its 26 year production lifespan. Six main variants would be developed: the base Il-31 introduced in 1977, the land-based Il-33 introduced in 1979, the Il-31M introduced as a midlife upgrade in 1989, the Il-33M introduced in 1989, the further improved Il-31MU introduced in 2000, and Il-33MU introduced in 2001. The Il-31 remains in active service with the People's Liberation Army Navy and several other nations around the world.
Design and development
Design and testing
Over the course of the 1960s and early 1970s, Potapov built a series of experimental vertical take-off and landing (VTOL) fighters intended to replace the Ilchenko Il-28 in service with the People's Liberation Army Navy. These designs ultimately led to the Ilchenko Izd 52 (Ilchenko Test Object No. 52), which conducted its first test flight in 1971. Not wanting to abandon its nascent conventional take-off and landing (CTOL) aircraft carrier program to be abandoned in favour of less capable aviation cruisers, the People's Liberation Army Navy rejected Ilchenko's design. The reasoning given for the Izd 52's rejection was its poor hardpoint load capacity, which was rated at only 2,000 kg (4,400 lb). The Izd 52's was only designed with four hardpoints, one or two of which would already be in use by mounting a UKP-23-250 gun pod. This left only two hardpoints free at any given time, which was determined by People's Liberation Army Navy representatives as being too few for any serious combat missions.
In a rare case of Chervolesian defence industry initiative, Ilchenko attempted to salvage the Izd 52 design by converting the aircraft into a CTOL trainer as a replacement for the La-20UTI that had been in service since 1953. A single-seat, light strike fighter variant was derived from the initial design as an afterthought for export. Both the trainer and strike derivative received the OKB designation Po-108. The resulting design resembled the Izd. 52 externally, but had a shorter hull due to the removal of the lift fans (as they were no longer required), and wider wings that gave the design good low speed flight characteristics. The hardpoints were also improved, being able to carry 800 kg (1,765 lb) of ordnance; improving the overall capacity of the aircraft to 3,200 kg (7,055 lb)
A new engine needed to be selected for the new design. There was also some debate at the design bureau as to whether the new aircraft should be a twin-engine or single-engine configuration. Ruslan Kulagin, chief designer and project lead for the Il-108, was initially favorable to a single-engine design; believing the single-engine would help reduce cost, minimize the aircraft's weight, and increase maneuverability. Past experience with single-engine aircraft like the La-20 and MyL-18 had revealed that relatively frequent problems with burnouts and other failures, in part due to the inconsistent quality of Chervolesian produced engines. A twin-engine design was ultimately chosen, as the failure of one of the two engines would still allow the aircraft to return to base. The engine chosen for the Il-108 was a reheated Osokin AM-32, the AM-32 being a tried engine that enjoyed both domestic and export success. The reheated engine allowed the aircraft to be transonic, giving a speed of Mach 1.3 at altitude.
The Il-108 first flew in the summer of 1976 at the Rzhavets Proving Grounds. Flight tests showed the Il-108 possessed great agility and excellent low altitude flight characteristics. With the new engines, a combat radius of 800 km (500 mi) was achieved with a full external payload, almost as much as the in-service Il-35 and with only a 20% reduction in payload size. Although Chervolesian naval aviation had no real requirement, the Il-108's simplicity and compact size made it an attractive choice. Unlike the Il-28, the Il-108 was capable of flying low-low-low mission profiles, allowing it to evade much of the AFDC's defensive measures, which were tailor made to counter high-altitude saturation strikes. Based on these considerations, the Il-108 was commissioned as the Il-31 in 1977.
Production
The Il-108's final prototype was ordered into production in September, 1977, with 100 airframes ordered by the People's Liberation Army Navy, half of which were to be trainers. Deliveries were processed between 1978 and 1979, with the first full-strength Il-31 squadron being stationed to the Volosovo on 19 May, 1978. The initial order was completed on 31 October, 1979, and a follow up order for an additional 100 aircraft was placed the following day.
Design
Armament
Powerplant
Variants
Carrier-based
Land-based
Operational history
Current Chervolesian inventory
Ajahadyan Service
The Il-31 first saw combat in the closing weeks of the Third Satarian War, as the Ajahadyan Air Force, having taken serious losses since the start of the war, placed an order for the first ten planes off the production line as a stop-gap measure, reportedly paying almost double the production cost of each plane in exchange for the higher priority in delivery.
Upon delivery on 19th January 1978, Ajahadyan mechanics immediately de-navalised the aircraft, removing catapult attachment points and the tailhook and modifying the plane's electrical suite. The ten planes, formed into 220 Squadron, first flew on February 16th 1978 with training being completed by late March. The 220 Squadron was formed from veteran pilots of 22 Squadron, who had previously piloted the xx plane. 22 Squadron would provide close air support during Operation Praavh, the last Ajahadyan offensive of the war, successfully destroying a minimum of 4 Subarnan tanks according to Subarnan claims and 23 tanks according to Ajahadyan claims. The field-modified Il-31 used by Ajahadya would form the basis for the successful Il-33 introduced later that same year of which Ajahadya would order 190 to be delivered in four batches of 40 to be delivered over the next four years and a final batch of 30 to be produced under license in Ajahadya itself.
The Il-33, upgraded to Il-33M from 1991 to 1992 and Il-33MU from 2000 to 2002 remains in Ajahadyan service to the present day with the original 220 Squadron, as well as 221, 222 and 223 Squadrons, each with 50 Il-33MU for a total of 200 Il-33MU in active frontline service, with another 15 trainers.
Operators
Specifications (Il-31MU)
General characteristics
- Crew: 1
- Length: 13.8 m (45.1 ft)
- Wingspan: 8.1 m (26.6 ft)
- Height: 4.7 m (15.4 ft)
- Empty weight: 5,500 kg (12,125 lb)
- Loaded weight: 10,000 kg (22,050 lb)
- Max. takeoff weight: 11,630 kg (25,640 lb)
- Powerplant: 2 × Osokin AM-32 afterburning turbofan
- Dry thrust: 24 kN (5,395 lbf) each
- Thrust with afterburner: 36 kN (8,093 lbf) each
Performance
- Maximum speed: Mach 1.6 (1,975 km/h; 1,228 mph)
- Combat radius: 800 km (500 miles) on internal fuel
Armament
- Guns: 2× MTs-23 autocannon, 120 rounds each
- Hardpoints: 6 hardpoints with a capacity of 4,500 kg and provisions to carry combinations of:
- Rockets:
- UB-32 rocket pods
- B-8M rocket pods for S-8 rockets
- S-13
- S-24
- S-25
- Missiles:
- Bombs:
- Rockets:
Avionics
RP-21 Sapfir