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{|{{Infobox aircraft begin
{|{{Infobox aircraft begin
  |name = Devati 191
  |name = Devati 191
  |image = Focke-Wulf Fw 187 (15083509087).jpg  
  |image = Devati_191.jpg
  |alt =  
  |alt =  
}}{{Infobox aircraft type
}}{{Infobox aircraft type
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| manufacturer = [[Devati]]  
| manufacturer = [[Devati]]  
| designer = [[Kanira Velamuri]]
| designer = [[Kanira Velamuri]]
| first flight = February 1937
| first flight = February 1936
| introduced = July 1937
| introduced = July 1936
| retired = 1949
| retired = 1949
| status = Retired
| status = Retired
| primary user = [[Royal Tennaiite Air Force]]
| primary user = [[Royal Tennaiite Air Force]]
| more users =
| more users =
| produced = 1938-1946
| produced = 1936-1947
| number built = 3,637
| number built = 7,637
| program cost =
| program cost =
| unit cost =
| unit cost =
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|}
|}


The Devat 191 was a Tennaiite aircraft developed in the late 1930s.  It was conceived by Kanira Velamuri as a twin-engine, high-performance fighter, but it proved a versatile platform and was developed into fighter-bomber and aerial reconnaissance versions as well.  The Devati 191 and its variants served throughout the latter months of the [[Siduri War]] with great success and continued to serve for another decade in the Royal Tennaiite Air Force before being retired from servie]ce in 1949.
The Devat 191 was a Tennaiite aircraft developed in the late 1930s.  It was conceived by Kanira Velamuri as a twin-engine, high-performance fighter, but it proved a versatile platform and was developed into fighter-bomber and aerial reconnaissance versions as well.  The Devati 191 and its variants served on all fronts of the [[Siduri War]]. The Dv 191 continued to serve in the Royal Tennaiite Air Force until 1949.
==Design and Development==
==Design and Development==
In the early to mid-1930s, developments in airframe design outstripped available aircraft engine power, allowing large aircraft to be built that existing engines were unable to sufficiently lift or propel (at least not alone). A period ensued in which multi-engine designs mostly outperformed aircraft designed with just one engine.  It was durning this period in early 1934, shortly before the outbreak of the Siduri War in Tennai, that the Tennaiite Royal Air Force tendered a request for a high-speed and long range fighter aircraft that could be used as a bomber escort and patrol aircraft.
In the early to mid-1930s, developments in airframe design outstripped available aircraft engine power, allowing large aircraft to be built that existing engines were unable to sufficiently lift or propel (at least not alone). A period ensued in which multi-engine designs mostly outperformed aircraft designed with just one engine.  It was durning this period in early 1934, shortly before the outbreak of the Siduri War in Tennai, that the Tennaiite Royal Air Force tendered a request for a high-speed and long range fighter aircraft that could be used as a bomber escort and patrol aircraft.


In 1935, Kanira Velamuri began design work a long-range single-seat fighter under a private venture within Devati. The idea was not to produce a heavy fighter or bomber destroyer, but instead a long-range design that would have the performance of a single-seat design. Powered by the new 736 kW (1,000 PS) Devati S-P251-112 Deva, it had an expected speed of 560 km/h (350 mph). The design was unveiled in 1936 at an exhibition of new weapons, prototypes and projects held at the Devati factory at Kalatta, where it was viewed by a number of high-ranking Tennaiite officials, including [[Queen Nimeeka II]]. The Tennaiite Air Ministry showed great interest in the design and offered Devati a contract to further develop the aircraft with a request for prototypes as soon as Devati could provide them. The Siduri War was ongoing and the need for the aircraft was greater than ever.
In 1934, Kanira Velamuri began design work a long-range single-seat fighter under a private venture within Devati. The idea was not to produce a heavy fighter or bomber destroyer, but instead a long-range design that would have the performance of a single-seat design. Powered by the new 736 kW (1,000 PS) [[Devati S-P251-112 Deva]], it had an expected speed of 560 km/h (350 mph). The design was unveiled in 1935 at an exhibition of new weapons, prototypes and projects held at the Devati factory at Kalatta, where it was viewed by a number of high-ranking Tennaiite officials, including [[Queen Nimeeka II]]. The Tennaiite Air Ministry showed great interest in the design and offered Devati a contract to further develop the aircraft with a request for prototypes as soon as Devati could provide them. The Siduri War was ongoing and the need for the aircraft was greater than ever.
 
The original design made accommodations for four [[Basu HV 80]] 7.62 caliber machine guns with 400 rpg and two [[Basu FG 20-20]] cannons with 100 rpg. Uncommon for many fighters of the era who mounted much of thier weaponry in the wings, the Dv 191s weapon were clustered in the fuselage of the aircraft.  Wing-mounted guns were set up with tractectories set up to crisscross at one or more points in a convergence zone.  By contrasts, the fuselage-mounted guns of the Dv 190 did not suffer from having thier useful range limited by pattern convergence, meaning that good pilots could shoot much farther.  A Dv 190 could reliably hit targets at any range up to 910 m (1,000 yd), whereas the wing guns of other fighters were optimized for specific range.


===Prototypes===
===Prototypes===
The engine nacelles were relatively normal, including both the engine and the main landing gear storage, but the front-mounted radiators for the engines were retractable for high speed when less frontal area would be needed to get the same airflow (an idea which was in some vogue at the time). The mainwheels were fully retractable and faired and the design of the wing and tailplane required no struts or supports (unlike some late 1930s designs), in order to further reduce drag. The wing's two spars passed under the pilot's seat. As was common on pre-war designs, the line of the rear fuselage flowed straight into the line of the canopy, which created less drag than a bubble canopy (though a bubble canopy was adopted on later variants), but also blocked direct viewing to the rear, although there were cutouts in the rear fuselage and the rear section of the canopy, which opened rearward and upward at an angle of about 15°, extended some ways to the rear to provide a degree of vision over the pilot's shoulder, if not directly rearward (the forward section of the canopy, over the pilot himself, hinged forwards in an unusual fashion). Although the cockpit was located well forward, a small window panel was fitted in the underside of the nose by the pilot's feet to improve the view for landing.
The engine nacelles were relatively normal, including both the engine and the main landing gear storage, but the front-mounted radiators for the engines were retractable for high speed when less frontal area would be needed to get the same airflow (an idea which was in some vogue at the time). The mainwheels were fully retractable and faired and the design of the wing and tailplane required no struts or supports (unlike some late 1930s designs), in order to further reduce drag. The wing's two spars passed under the pilot's seat. As was common on pre-war designs, the line of the rear fuselage flowed straight into the line of the canopy, which created less drag than a bubble canopy (though a bubble canopy was adopted on later variants), but also blocked direct viewing to the rear, although there were cutouts in the rear fuselage and the rear section of the canopy, which opened rearward and upward at an angle of about 15°, extended some ways to the rear to provide a degree of vision over the pilot's shoulder, if not directly rearward (the forward section of the canopy, over the pilot himself, hinged forwards in an unusual fashion). Although the cockpit was located well forward, a small window panel was fitted in the underside of the nose by the pilot's feet to improve the view for landing.


The first prototype, Dv 191 V1 , flew for the first time in February 1937, with Thakshara Neela at its controls. In testing it demonstrated a speed of 565 km/h (351 mph), 80 km/h (50 mph) faster than the contemporary single engine Cheppali Cp 117, despite having twice the range, more than twice the weight, and using two of the same engines. Members of the Tennaiite Air Ministry were again impressed by the aircraft and placed an order for initial batch of 250 aircraft, despite the need for design modifications.
The first prototype, Dv 191 V1 , flew for the first time in February 1936, with Thakshara Neela at its controls. In testing it demonstrated a speed of 565 km/h (351 mph), 80 km/h (50 mph) faster than the contemporary single engine [[Cheppali 117|Cheppali Cp 117]], despite having twice the range, more than twice the weight, and using two of the same engines. Members of the Tennaiite Air Ministry were again impressed by the aircraft and placed an order for an initial batch of 250 aircraft, despite the need for design modifications.


Several changes were made to the design as a result of the testing, including new DVL propellers in place of the original Chandra-Seeth, and experimental twin-wheel bogies that were abandoned after testing. The designers were concerned about flutter in the rudder at high speed and had a weight fitted to reduce it but in testing this caused so much flutter it was torn off at high speed. A second prototype followed with fixed radiators rather than earlier retractable versions, a semi-retractable tailwheel, changes to the elevator, and a vertical stabilizer with reduced chord. The engine was also upgraded to the S-P251-116 version of the Deva, featuring direct fuel injection which resulted in a significant increase in power. New ejector-type exhaust stacks also contributed to increased speed by directing engine exhaust to the rear. Dv 191 V2 started testing in May of 1937, but crashed on landing when part of the main landing gear failed, and V1 was destroyed on 2 June 1937 after a high-speed pass over the Koldari facilities when the pilot, Nilaa Bamala, pulled up too sharply at the end of the pass resulting in a stall that sent the aircraft spinning into the ground.  At the time of the V2 crash, Dv 191 V3 was 90% complete.  V3 commenced flight testing on 15 June 1937 and following successful flight testing over the remainder of the month, the Dv 191 began serial production on 16 July 1937.
Several changes were made to the design as a result of the testing, including new DVL propellers in place of the original Chandra-Seeth, and experimental twin-wheel bogies that were abandoned after testing. The designers were concerned about flutter in the rudder at high speed and had a weight fitted to reduce it but in testing this caused so much flutter it was torn off at high speed. A second prototype followed with fixed radiators rather than earlier retractable versions, a semi-retractable tailwheel, changes to the elevator, and a vertical stabilizer with reduced chord. The engine was also upgraded to the S-P251-116 version of the Deva, featuring direct fuel injection which resulted in a significant increase in power. New ejector-type exhaust stacks also contributed to increased speed by directing engine exhaust to the rear. Dv 191 V2 started testing in May of 1936, but crashed on landing when part of the main landing gear failed, and V1 was destroyed on 2 June 1936 after a high-speed pass over the Koldari facilities when the pilot, Nilaa Bamala, pulled up too sharply at the end of the pass resulting in a stall that sent the aircraft spinning into the ground.  At the time of the V2 crash, Dv 191 V3 was 90% complete.  V3 commenced flight testing on 15 June 1936 and following successful flight testing over the next month, the Dv 191 began serial production on 17 July 1936.


==Operational Service==
==Operational Service==
==Variants==
==Variants==
;A-Series
:First production variant with 7.62mm machine guns and mounting the 986 hp Devati S-P251-112 Deva engine
;B-Series
:The four 7.62 machine guns were replaced with four 12.7 mm machine guns, mounting of the 1,159 hp S-P252-112 Deva engine, addition of cabin pressurization, hardpoints for drop tanks added
;C-Series
:Redesign which added a bubble canopy and the mounting of the 1,430 hp S-P252-115 Deva engine
;D-Series
:As Reconnaissance variant, Same as the C-series except with the guns removed and replaced with photography equipment
;E-Series
:Mounting the 1,600 hp S-P253-113 Deva engine, incorporating improved cabin pressurization, redesigned streamlined engine nacelles for lower drag
;F-Series
:Figter-Bomber Variant, added harpoints for bombs and rockets
;G-series through K-Series
:Incremental upgrades of aircraft systems to keep aircraft competitive
==Operators==
==Operators==
==Surving Aircraft==
==Surving Aircraft==
==Specifications Dv 191 H5==
==Specifications Dv 191 K3==
[[File:Devati 191 orthograhic.jpg|frameless|right|upright=1.35|Orthographically projected diagram of the Dv 109 H5]]
[[File:Devati 191 orthograhic.jpg|frameless|right|upright=1.35|Orthographically projected diagram of the Dv 109 H5]]
{{Aircraft specs
{{Aircraft specs
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-->
-->
|eng1 number=2
|eng1 number=2
|eng1 name=[[Devati S-P251-117 Deva]]
|eng1 name=Devati S-P253-117 Deva
|eng1 type=V-12 inverted liquid-cooled piston engines
|eng1 type=V-12 inverted liquid-cooled piston engines
|eng1 kw=<!-- prop engines -->
|eng1 kw=<!-- prop engines -->
Line 80: Line 97:
|eng1 kn=<!-- jet/rocket engines -->
|eng1 kn=<!-- jet/rocket engines -->
|eng1 lbf=<!-- jet/rocket engines -->
|eng1 lbf=<!-- jet/rocket engines -->
|eng1 note={{cvt|1475|PS|kW hp|0}}
|eng1 note={{cvt|1622|PS|kW hp|0}}


|prop blade number=3
|prop blade number=3
Line 89: Line 106:
         Performance
         Performance
-->
-->
|max speed kmh=667
|max speed kmh=684
|max speed note=at {{cvt|7000|m|0}}
|max speed note=at {{cvt|9144|m|0}}
|cruise speed kmh=445
|cruise speed kmh=501
|cruise speed note=
|cruise speed note=
|stall speed kmh=105
|stall speed kmh=105
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|minimum control speed kmh=
|minimum control speed kmh=
|minimum control speed note=
|minimum control speed note=
|range km=2288
|range km=
|range note=  
|range note=  
|combat range km= 1144
|combat range km= 2100
|combat range note=
|combat range note=
|ferry range km= 3988
|ferry range km= 5300
|ferry range note=
|ferry range note=
|endurance=<!-- if range unknown -->
|endurance=<!-- if range unknown -->
Line 122: Line 139:
-->
-->
|guns=<br/>
|guns=<br/>
:* 4 × {{cvt|7.92|mm|3}} [[Basu HV 80]] machine guns in fuselage sides
:* 4 × {{cvt|12.72|mm|3}} [[Basu HV 82]] machine guns in fuselage sides
:* 2 × {{cvt|20|mm|3}} [[Basu FG 20-20 cannon]] in lower fuselage
:* 2 × {{cvt|20|mm|3}} [[Basu FG 20-20 cannon]] in lower fuselage
* 4× M10 three-tube 4.5 in (112 mm) [[Hornet 7 (rocket)|Hornet 7 rocket]] launchers; '''or''':
* 4× M10 three-tube 4.5 in (112 mm) [[Hornet 7 (rocket)|Hornet 7 rocket]] launchers; '''or''':

Latest revision as of 18:40, 28 January 2022

Devati 191
Devati 191.jpg
Role Fighter

Fighter-Bomber
Aerial Reconnaissance

National origin Tennai
Manufacturer Devati
Designer Kanira Velamuri
First flight February 1936
Introduction July 1936
Retired 1949
Status Retired
Primary user Royal Tennaiite Air Force
Produced 1936-1947
Number built 7,637

The Devat 191 was a Tennaiite aircraft developed in the late 1930s. It was conceived by Kanira Velamuri as a twin-engine, high-performance fighter, but it proved a versatile platform and was developed into fighter-bomber and aerial reconnaissance versions as well. The Devati 191 and its variants served on all fronts of the Siduri War. The Dv 191 continued to serve in the Royal Tennaiite Air Force until 1949.

Design and Development

In the early to mid-1930s, developments in airframe design outstripped available aircraft engine power, allowing large aircraft to be built that existing engines were unable to sufficiently lift or propel (at least not alone). A period ensued in which multi-engine designs mostly outperformed aircraft designed with just one engine. It was durning this period in early 1934, shortly before the outbreak of the Siduri War in Tennai, that the Tennaiite Royal Air Force tendered a request for a high-speed and long range fighter aircraft that could be used as a bomber escort and patrol aircraft.

In 1934, Kanira Velamuri began design work a long-range single-seat fighter under a private venture within Devati. The idea was not to produce a heavy fighter or bomber destroyer, but instead a long-range design that would have the performance of a single-seat design. Powered by the new 736 kW (1,000 PS) Devati S-P251-112 Deva, it had an expected speed of 560 km/h (350 mph). The design was unveiled in 1935 at an exhibition of new weapons, prototypes and projects held at the Devati factory at Kalatta, where it was viewed by a number of high-ranking Tennaiite officials, including Queen Nimeeka II. The Tennaiite Air Ministry showed great interest in the design and offered Devati a contract to further develop the aircraft with a request for prototypes as soon as Devati could provide them. The Siduri War was ongoing and the need for the aircraft was greater than ever.

The original design made accommodations for four Basu HV 80 7.62 caliber machine guns with 400 rpg and two Basu FG 20-20 cannons with 100 rpg. Uncommon for many fighters of the era who mounted much of thier weaponry in the wings, the Dv 191s weapon were clustered in the fuselage of the aircraft. Wing-mounted guns were set up with tractectories set up to crisscross at one or more points in a convergence zone. By contrasts, the fuselage-mounted guns of the Dv 190 did not suffer from having thier useful range limited by pattern convergence, meaning that good pilots could shoot much farther. A Dv 190 could reliably hit targets at any range up to 910 m (1,000 yd), whereas the wing guns of other fighters were optimized for specific range.

Prototypes

The engine nacelles were relatively normal, including both the engine and the main landing gear storage, but the front-mounted radiators for the engines were retractable for high speed when less frontal area would be needed to get the same airflow (an idea which was in some vogue at the time). The mainwheels were fully retractable and faired and the design of the wing and tailplane required no struts or supports (unlike some late 1930s designs), in order to further reduce drag. The wing's two spars passed under the pilot's seat. As was common on pre-war designs, the line of the rear fuselage flowed straight into the line of the canopy, which created less drag than a bubble canopy (though a bubble canopy was adopted on later variants), but also blocked direct viewing to the rear, although there were cutouts in the rear fuselage and the rear section of the canopy, which opened rearward and upward at an angle of about 15°, extended some ways to the rear to provide a degree of vision over the pilot's shoulder, if not directly rearward (the forward section of the canopy, over the pilot himself, hinged forwards in an unusual fashion). Although the cockpit was located well forward, a small window panel was fitted in the underside of the nose by the pilot's feet to improve the view for landing.

The first prototype, Dv 191 V1 , flew for the first time in February 1936, with Thakshara Neela at its controls. In testing it demonstrated a speed of 565 km/h (351 mph), 80 km/h (50 mph) faster than the contemporary single engine Cheppali Cp 117, despite having twice the range, more than twice the weight, and using two of the same engines. Members of the Tennaiite Air Ministry were again impressed by the aircraft and placed an order for an initial batch of 250 aircraft, despite the need for design modifications.

Several changes were made to the design as a result of the testing, including new DVL propellers in place of the original Chandra-Seeth, and experimental twin-wheel bogies that were abandoned after testing. The designers were concerned about flutter in the rudder at high speed and had a weight fitted to reduce it but in testing this caused so much flutter it was torn off at high speed. A second prototype followed with fixed radiators rather than earlier retractable versions, a semi-retractable tailwheel, changes to the elevator, and a vertical stabilizer with reduced chord. The engine was also upgraded to the S-P251-116 version of the Deva, featuring direct fuel injection which resulted in a significant increase in power. New ejector-type exhaust stacks also contributed to increased speed by directing engine exhaust to the rear. Dv 191 V2 started testing in May of 1936, but crashed on landing when part of the main landing gear failed, and V1 was destroyed on 2 June 1936 after a high-speed pass over the Koldari facilities when the pilot, Nilaa Bamala, pulled up too sharply at the end of the pass resulting in a stall that sent the aircraft spinning into the ground. At the time of the V2 crash, Dv 191 V3 was 90% complete. V3 commenced flight testing on 15 June 1936 and following successful flight testing over the next month, the Dv 191 began serial production on 17 July 1936.

Operational Service

Variants

A-Series
First production variant with 7.62mm machine guns and mounting the 986 hp Devati S-P251-112 Deva engine
B-Series
The four 7.62 machine guns were replaced with four 12.7 mm machine guns, mounting of the 1,159 hp S-P252-112 Deva engine, addition of cabin pressurization, hardpoints for drop tanks added
C-Series
Redesign which added a bubble canopy and the mounting of the 1,430 hp S-P252-115 Deva engine
D-Series
As Reconnaissance variant, Same as the C-series except with the guns removed and replaced with photography equipment
E-Series
Mounting the 1,600 hp S-P253-113 Deva engine, incorporating improved cabin pressurization, redesigned streamlined engine nacelles for lower drag
F-Series
Figter-Bomber Variant, added harpoints for bombs and rockets
G-series through K-Series
Incremental upgrades of aircraft systems to keep aircraft competitive

Operators

Surving Aircraft

Specifications Dv 191 K3

Orthographically projected diagram of the Dv 109 H5

General characteristics

  • Crew: 1
  • Length: 11.1 m (36 ft 5 in)
  • Wingspan: 15.3 m (50 ft 2 in)
  • Height: 3.85 m (12 ft 8 in)
  • Wing area: 30.4 m2 (327 sq ft)
  • Empty weight: 3,600 kg (7,937 lb)
  • Gross weight: 5,000 kg (11,023 lb)
  • Max takeoff weight: 5,950 kg (13,118 lb)
  • Powerplant: 2 × Devati S-P253-117 Deva V-12 inverted liquid-cooled piston engines 1,622 PS (1,193 kW; 1,600 hp)
  • Propellers: 3-bladed light-alloy constant-speed propellers

Performance

  • Maximum speed: 684 km/h (425 mph; 369 kn) at 9,144 m (30,000 ft)
  • Cruise speed: 501 km/h (311 mph; 271 kn)
  • Stall speed: 105 km/h (65 mph; 57 kn)
  • Combat range: 2,100 km (1,305 mi; 1,134 nmi)
  • Ferry range: 5,300 km (3,293 mi; 2,862 nmi)
  • Service ceiling: 13,000 m (43,000 ft)
  • Rate of climb: 25 m/s (4,900 ft/min)
  • Time to altitude: 6,000 m (19,685 ft) in 5 minutes 12 seconds

Armament

  • Guns:
  • 4× M10 three-tube 4.5 in (112 mm) Hornet 7 rocket launchers; or:
    • Inner hardpoints:
      • 2× 2,000 lb (907 kg) bombs or drop tanks; or
      • 2× 1,000 lb (454 kg) bombs or drop tanks, plus either
        • 4× 500 lb (227 kg) bombs or
        • 4× 250 lb (113 kg) bombs; or
      • 6× 500 lb (227 kg) bombs; or
      • 6× 250 lb (113 kg) bombs
    • Outer hardpoints:
      • 10× 5 in (127 mm) HVARs (High Velocity Aircraft Rockets); or
      • 2× 500 lb (227 kg) bombs; or
      • 2× 250 lb (113 kg) bombs