Akula TK-22: Difference between revisions

Jump to navigation Jump to search
 
(42 intermediate revisions by the same user not shown)
Line 10: Line 10:
| designer = [[Vadiaya Sera Bamraulia]]
| designer = [[Vadiaya Sera Bamraulia]]
| first flight = May 1934
| first flight = May 1934
| introduced = March 1936
| introduced = March 1935
| retired = 1950
| retired = 1950
| status = Retired
| status = Retired
Line 16: Line 16:
| more users =
| more users =
| produced = 1935-1945
| produced = 1935-1945
| number built = 6,389
| number built = 6,989
| program cost =
| program cost =
| unit cost =
| unit cost =
Line 24: Line 24:
}}
}}
|}
|}
The Akula TK-22 was a Tennaiite medium bomber during the [[Siduri War]].  It began operation in 1936 where it was used extensively in tactical bombing missions and also in attacking enemy shipping.  It was used in operations all across the [[Tennaiite Front]], into Shirvaniya, ships and ports in the seas of Western Siduri, and Syara in the later stages of the war.
The Akula TK-22 was a Tennaiite medium bomber during the [[Siduri War]].  It began operation in 1936 where it was used extensively in tactical bombing missions and also in attacking enemy shipping by members of the [[Common Axis]].  It was used in operations all across the [[Tennaiite Front]], into Shirvaniya, ships and ports in the seas of Western Siduri, and Syara in the later stages of the war.  It, along with the [[Parvati PTK-23]], served as one of the primary medium bombers of the Siduri War. Produced in numerous variants, nearly 7,000 Tk-22s were built.
==Design and Development==
==Design and Development==
The Akula TK-22 was a twin-engined long-range medium bomber, initially powered by a pair of Akula Curavali AC43 radial engines, which drove a pair of two-pitch propellers.  The TK-22 typically had a crew of six. The bomb-aimer was located within the aircraft's nose. The TK-22 could be fitted with dual flight controls, and specialised dual-control conversion sets were developed for the purpose of performing training upon the type. The cockpit also contained provisions for heating and de-icing equipment, which was introduced on later models of the TK-22. The TK-22 Mk I had a maximum offensive bomb load of 4,500 lb (2,000 kg). Additional munitions and an expanded bombing capacity were a recurring change made in many of the subsequent variants of the TK-22 developed during the war, including the carrying of ever-larger bombs.
Defensive armaments comprised the forward and tail turret gun positions, along with a ventral turret in the rear of the aircraft's long greenhouse canopy.  In the TK-22-IB, the canopy was replaced with a rotating turret Due to the high cruising speeds of the TK-22, it had been realised that fully enclosed turrets, as opposed to semi-enclosed or exposed turrets, would be necessary; the turrets were also power-operated in order to traverse with the speed and manoeuvrability necessary to keep up with the new generations of opposing fighter aircraft. Due to the specialised nature of increasingly advanced turrets, these were treated as ancillary equipment, being designed and supplied independently and replacing Akula's own turrets developed for the aircraft.
A key innovation of the TK-22 was its geodesic construction, devised by aircraft designer and inventor Amrita Sera Sirohi. The fuselage consisted of duralumin W-beams which formed into a metal framework. The skin of the aircraft was made of extra super duralumin developed by Rutika Material Industries for the [[Mahindra V5K]]. The construction proved to be compatible with significant adaptations and alterations including greater all-up weight, larger bombs, tropicalisation, and the addition of long-range fuel tanks.
The metal lattice gave the structure considerable strength, with any single stringer able to support a portion of load from the opposite side of the aircraft. Heavily damaged or destroyed beams on one side could still leave the aircraft structure viable; as a result, TK-22s with huge areas of framework missing were often able to return home when other types would not have survived, leading to stories of the aircraft's "invulnerability".
A further advantage of the geodesic construction of the wings was its enabling of a unique method for housing the fuel, with each wing containing three fuel tanks within the unobstructed space provided between the front and rear spars outboard of the engines. A disadvantage of the geodesic fuselage structure was its insufficient lengthwise stiffness: when fitted with attachment for towing cargo gliders, its structure "gave" and stretched slightly. So, while the airframe continued to be structurally sound, the forces in the long control runs of cables and push-pull rods to the empennage grew considerably, affecting controllability of the aeroplane. This is the reported reason why TK-22s were not used as glider tugs.
==Operational history==
==Operational history==
[[File:TK-22-IBs over the Shirvani Dominion.jpg|thumb|right|TK-22-IBs over the Shirvani Dominion]]
===Siduri War===
===Siduri War===
==Variants==
==Variants==
;TK-22
;TK-22
:Original production model.  118 were produced before production switched to the 22-IB
:Original production model.  118 were produced before production switched to the 22-IB
;TK-22-IB
;TK-22-IB
:Clear upper cabin replaced with rotating turret and more powerful engines
:Clear upper cabin replaced with rotating turret and more powerful Curavali AC112 engines (1,700 hp).  Five additional 12.7 mm machine guns added.
;TK-22-IC
;TK-22-IC
:
:
Line 42: Line 56:
*{{flag|Tennai}}
*{{flag|Tennai}}


==Specifications (TK-22)==
==Specifications (TK-22-IB)==
[[File:Akula TK-22 Three view diagram.gif|frameless|right|upright=1.50]]
{{Aircraft specs
{{Aircraft specs
|prime units?=met
|prime units?=met
Line 59: Line 74:
|aspect ratio=<!-- sailplanes -->
|aspect ratio=<!-- sailplanes -->
|airfoil=<!--'''root:''' [[NACA airfoil|NACA ]]; '''tip:''' [[NACA airfoil|NACA ]]<ref name="Selig">{{cite web |last1=Lednicer |first1=David |title=The Incomplete Guide to Airfoil Usage |url=https://m-selig.ae.illinois.edu/ads/aircraft.html |website=m-selig.ae.illinois.edu |accessdate=16 April 2019}}</ref>-->
|airfoil=<!--'''root:''' [[NACA airfoil|NACA ]]; '''tip:''' [[NACA airfoil|NACA ]]<ref name="Selig">{{cite web |last1=Lednicer |first1=David |title=The Incomplete Guide to Airfoil Usage |url=https://m-selig.ae.illinois.edu/ads/aircraft.html |website=m-selig.ae.illinois.edu |accessdate=16 April 2019}}</ref>-->
|empty weight kg=8650
|empty weight kg=8917
|empty weight note=
|empty weight note=
|gross weight kg=
|gross weight kg=
|gross weight note=
|gross weight note=
|max takeoff weight kg=13321
|max takeoff weight kg=15876
|max takeoff weight note=
|max takeoff weight note=
|fuel capacity=
|fuel capacity=
Line 71: Line 86:
-->
-->
|eng1 number=2
|eng1 number=2
|eng1 name=Akula Curavali AC44
|eng1 name=[[Akula Curavali AC143]]
|eng1 type=14-cylinder air-cooled radial piston engine
|eng1 type=14-cylinder air-cooled radial piston engine
|eng1 kw=<!-- prop engines -->
|eng1 kw=<!-- prop engines -->
Line 78: Line 93:
|eng1 kn=<!-- jet/rocket engines -->
|eng1 kn=<!-- jet/rocket engines -->
|eng1 lbf=<!-- jet/rocket engines -->
|eng1 lbf=<!-- jet/rocket engines -->
|eng1 note={{cvt|1217|PS|kW hp|0}}
|eng1 note={{cvt|1724|PS|kW hp|0}}


|prop blade number=3
|prop blade number=3
Line 87: Line 102:
         Performance
         Performance
-->
-->
|max speed kmh=431
|max speed kmh=438
|max speed note=
|max speed note=
|cruise speed kmh=345
|cruise speed kmh=370
|cruise speed note=
|cruise speed note=
|stall speed kmh=
|stall speed kmh=
Line 97: Line 112:
|minimum control speed kmh=
|minimum control speed kmh=
|minimum control speed note=
|minimum control speed note=
|range km=2288
|range km=2600
|range note=  
|range note=  
|combat range km= 1144
|combat range km=
|combat range note=
|combat range note=
|ferry range km= 3988
|ferry range km=
|ferry range note=
|ferry range note=
|endurance=<!-- if range unknown -->
|endurance=<!-- if range unknown -->
|ceiling m=13000
|ceiling m=10000
|ceiling note=
|ceiling note=
|g limits=<!-- aerobatic -->
|g limits=<!-- aerobatic -->
|roll rate=<!-- aerobatic -->
|roll rate=<!-- aerobatic -->
|climb rate ms=25
|climb rate ms=
|climb rate note=
|climb rate note=
|time to altitude={{cvt|6000|m|0}} in 5 minutes 12 seconds
|time to altitude={{cvt|6000|m|0}} in 13 minutes 48 seconds
|wing loading kg/m2=
|wing loading kg/m2=
|wing loading note=
|wing loading note=
Line 120: Line 135:
-->
-->
|guns=<br/>
|guns=<br/>
:* 12.7 mm (.303 in) flexible machine guns in nose, ventral, beam and tail positions
:* 12× 12.7 mm (.50 in) machine guns
|bombs=<br/>
|bombs=<br/>
:*2,000 kg (4,400 lb) lb of bombs
:*2,000 kg (4,500 lb) lb of bombs
}}
}}

Latest revision as of 00:01, 1 February 2022

Akula TK-22
Akula TK-22 formation over the Khastravali Mountains.jpg
Early production TK-22s in formation over the Southern Khastravali Mountains
Role Medium bomber
National origin Tennai
Manufacturer Akula Aircraft Company
Designer Vadiaya Sera Bamraulia
First flight May 1934
Introduction March 1935
Retired 1950
Status Retired
Primary user Royal Tennaiite Air Force
Produced 1935-1945
Number built 6,989

The Akula TK-22 was a Tennaiite medium bomber during the Siduri War. It began operation in 1936 where it was used extensively in tactical bombing missions and also in attacking enemy shipping by members of the Common Axis. It was used in operations all across the Tennaiite Front, into Shirvaniya, ships and ports in the seas of Western Siduri, and Syara in the later stages of the war. It, along with the Parvati PTK-23, served as one of the primary medium bombers of the Siduri War. Produced in numerous variants, nearly 7,000 Tk-22s were built.

Design and Development

The Akula TK-22 was a twin-engined long-range medium bomber, initially powered by a pair of Akula Curavali AC43 radial engines, which drove a pair of two-pitch propellers. The TK-22 typically had a crew of six. The bomb-aimer was located within the aircraft's nose. The TK-22 could be fitted with dual flight controls, and specialised dual-control conversion sets were developed for the purpose of performing training upon the type. The cockpit also contained provisions for heating and de-icing equipment, which was introduced on later models of the TK-22. The TK-22 Mk I had a maximum offensive bomb load of 4,500 lb (2,000 kg). Additional munitions and an expanded bombing capacity were a recurring change made in many of the subsequent variants of the TK-22 developed during the war, including the carrying of ever-larger bombs.

Defensive armaments comprised the forward and tail turret gun positions, along with a ventral turret in the rear of the aircraft's long greenhouse canopy. In the TK-22-IB, the canopy was replaced with a rotating turret Due to the high cruising speeds of the TK-22, it had been realised that fully enclosed turrets, as opposed to semi-enclosed or exposed turrets, would be necessary; the turrets were also power-operated in order to traverse with the speed and manoeuvrability necessary to keep up with the new generations of opposing fighter aircraft. Due to the specialised nature of increasingly advanced turrets, these were treated as ancillary equipment, being designed and supplied independently and replacing Akula's own turrets developed for the aircraft.

A key innovation of the TK-22 was its geodesic construction, devised by aircraft designer and inventor Amrita Sera Sirohi. The fuselage consisted of duralumin W-beams which formed into a metal framework. The skin of the aircraft was made of extra super duralumin developed by Rutika Material Industries for the Mahindra V5K. The construction proved to be compatible with significant adaptations and alterations including greater all-up weight, larger bombs, tropicalisation, and the addition of long-range fuel tanks.

The metal lattice gave the structure considerable strength, with any single stringer able to support a portion of load from the opposite side of the aircraft. Heavily damaged or destroyed beams on one side could still leave the aircraft structure viable; as a result, TK-22s with huge areas of framework missing were often able to return home when other types would not have survived, leading to stories of the aircraft's "invulnerability".

A further advantage of the geodesic construction of the wings was its enabling of a unique method for housing the fuel, with each wing containing three fuel tanks within the unobstructed space provided between the front and rear spars outboard of the engines. A disadvantage of the geodesic fuselage structure was its insufficient lengthwise stiffness: when fitted with attachment for towing cargo gliders, its structure "gave" and stretched slightly. So, while the airframe continued to be structurally sound, the forces in the long control runs of cables and push-pull rods to the empennage grew considerably, affecting controllability of the aeroplane. This is the reported reason why TK-22s were not used as glider tugs.

Operational history

TK-22-IBs over the Shirvani Dominion


Siduri War

Variants

TK-22
Original production model. 118 were produced before production switched to the 22-IB
TK-22-IB
Clear upper cabin replaced with rotating turret and more powerful Curavali AC112 engines (1,700 hp). Five additional 12.7 mm machine guns added.
TK-22-IC
Tk-22-II
Tk-22-IIB

Operators

Specifications (TK-22-IB)

Akula TK-22 Three view diagram.gif

General characteristics

  • Crew: six
  • Length: 19.2 m (63 ft 0 in)
  • Wingspan: 27 m (88 ft 7 in)
  • Height: 5.32 m (17 ft 5 in)
  • Wing area: 83 m2 (890 sq ft)
  • Empty weight: 8,917 kg (19,659 lb)
  • Max takeoff weight: 15,876 kg (35,001 lb)
  • Powerplant: 2 × Akula Curavali AC143 14-cylinder air-cooled radial piston engine 1,724 PS (1,268 kW; 1,700 hp)
  • Propellers: 3-bladed variable-pitch propellers

Performance

  • Maximum speed: 438 km/h (272 mph; 237 kn)
  • Cruise speed: 370 km/h (230 mph; 200 kn)
  • Range: 2,600 km (1,616 mi; 1,404 nmi)
  • Service ceiling: 10,000 m (33,000 ft)
  • Time to altitude: 6,000 m (19,685 ft) in 13 minutes 48 seconds

Armament

  • Guns:
  • 12× 12.7 mm (.50 in) machine guns
  • Bombs:
  • 2,000 kg (4,500 lb) lb of bombs