Gloster E.28/39 | |
---|---|
The first E.28/39 prototype W4041/G | |
Role | Experimental prototype |
Manufacturer | Gloster Aircraft Company |
Designer | George Carter |
First flight | 15 May 1941 |
Primary user | Royal Aircraft Establishment |
Number built | 2 prototypes |
The Gloster E.28/39, (also referred to as the "Gloster Whittle", "Gloster Pioneer", or "Gloster G.40") was the first British jet-engined aircraft to fly. It was designed to test the Whittle jet engine in flight, leading to the development of the Gloster Meteor.
Design and development[]
In September 1939, the Air Ministry issued a specification to Gloster for an aircraft to test one of Frank Whittle's turbojet designs in flight. The E.28/39 name comes from the aircraft having been built to the 28th "Experimental" specification issued by the Air Ministry in 1939. The E.28/39 specification required the aircraft to carry two .303 Browning machine guns in each wing, but these were never fitted.
Gloster's chief designer George Carter worked closely with Whittle, and laid out a small low-wing aircraft of conventional configuration. The jet intake was in the nose, and the tail-fin and elevators were mounted above the jet-pipe. A contract for two prototypes was signed by the Air Ministry on 3 February 1940, and the first of these was completed by April 1941. Manufacturing started at Brockworth near Gloucester, but was later moved to Regent Motors in Cheltenham High St (now the Regent Arcade) which was considered a location safer from bombing.
Testing[]
Although the initial flight tests were relatively early in the Second World War, the German Heinkel He 178 had been first test-flown on 27 August 1939, at Rostock-Marienehe on the Baltic Coast, days before the outbreak of the war.
The E.28/39 was delivered to Brockworth for ground tests beginning on 7 April 1941, using a non-flightworthy version of the Power Jets W.1 engine. These included some short "hops" of about 6 ft in height from the grass airfield. With these initial tests satisfactorily completed, the aircraft was fitted with a flightworthy engine rated for 10 hours use, and then transferred to Cranwell which had a long runway. On 15 May 1941, Gloster's Chief Test Pilot, Flight Lieutenant Gerry Sayer flew the aircraft under jet power for the first time from RAF Cranwell, near Sleaford in Lincolnshire, in a flight lasting 17 minutes.
Over the following months, tests continued with increasingly refined versions of the engine. Later in the test program small, auxiliary fins were added near the tips of the tailplanes to provide additional stability in high-speed flight.[1] John Grierson, in 1971, called these "end-plates", and wrote that their purpose was to increase the fin area due to the problem of rudder blanking in a side-slip.[2]
On 21 October 1942, Sayer disappeared during an acceptance test flight in a Hawker Typhoon, presumed killed, and his assistant took over testing of the E.28/39. The oil system had been changed before he flew; after it was proven, the aircraft was handed over to the RAE for testing by service pilots.
The second prototype E.28/39 (W4046) - initially powered by a Rover W2B engine - joined the test programme on 1 March 1943. Testing had revealed problems with engine oil and lubricants. Flying of W4046 was by Gloster pilots John Grierson and John Crosby Warren, because Michael Daunt was then involved with the F.9/40 (the Meteor). In April 1943, W4046 flew to Hatfield for a demonstration in front of the Prime Minister and members of the Air Staff. It was taken to Farnborough and fitted with a 1,500 lbf (6.7 kN) W2.B. It achieved 466 mph. On 30 July 1943, while on a high-altitude test flight, the second prototype was destroyed in a crash resulting from an aileron failure. The accident was attributed to the use of the wrong type of grease in the aileron controls; one aileron had "stuck in position, sending the aircraft out of control".[1] The test pilot successfully bailed out from 33,000 ft.[3]
The first prototype was fitted with the 1,700 lbf (7.6 kN) thrust W2/500. It was flown successfully to 42,000 ft, but level speed at altitude was not attempted due to fuel shortage. The pilot commented in his report on a need for cockpit heating and a larger fuel tank.[3] It continued flight tests until 1944. By that time, more advanced turbojet-powered aircraft were available. The Gloster E.28/39 was not able to achieve high speeds, but it proved to be a capable experimental platform and exhibited a "good climb rate and ceiling".[1] Experience with the E.28/39 paved the way for Britain's first operational jet fighter aircraft, the Gloster Meteor. The Meteor used the Rolls-Royce Welland engine, the next stage from the Power Jets W.1.
Of the E.28/39 Grierson wrote: "The very favourable impressions of jet propulsion obtained ... have all been endorsed by subsequent flights ... The E.28 is a most pleasant little aeroplane to handle, particularly on account of the excellent field of vision from the pilot's seat ... "[4]
Survivors[]
In 1946, the first prototype (W4041) was placed in the Science Museum in Central London, where it is exhibited today in the Flight Gallery. A full-size replica has been placed on an obelisk on a roundabout near the northern perimeter of Farnborough Airfield in Hampshire, as a memorial to Sir Frank Whittle. A similar full-size model is on display in the middle of a roundabout at Lutterworth in Leicestershire (pictured below), where the aircraft's engine was produced.
A full-scale model taken from the same moulds, with authentic paint scheme and detailing, has been built by members of the Jet Age Museum in Gloucester. It has recently been on display in Brockworth, Gloucester, at the Kemble Air Day and MVT Show also at Kemble, and formed part of the display for the Sir Frank Whittle Centenary commemorations at RAF Cranwell in June 2007.
Operators[]
Specifications (Gloster E.28/39)[]
Data from [citation needed]
General characteristics
- Crew: One
- Length: 25 ft 4 in (7.74 m)
- Wingspan: 29 ft 0 in (8.84 m)
- Height: 8 ft 10 in (2.70 m)
- Wing area: 146 ft² (13.6 m²)
- Airfoil: G.W.2-section [3]
- Empty weight: 2,886 lb (1,309 kg)
- Loaded weight: 3,748 lb (1,700 kg)
- Powerplant: 1 × Power Jets W.1 turbojet, 860 lbf (3.8 kN)
- Fuel capacity: 81 gallons[3]
Performance
- Maximum speed: 338 mph (544 km/h) at 10,000 ft (3,050 m)
- Range: 410 mi (656 km)
- Endurance: 56 minutes
- Service ceiling: 32,000 ft (9,755 m)
- Rate of climb: 1,063 ft/min (5.9 m/s)
- Thrust/weight: 0.21
Armament
- Guns: None fitted but provision for four 0.303 in (7.7 mm) Browning machine guns
See also[]
- Heinkel He 178 - world's first flying turbojet aircraft.
- Heinkel He 280 - first turbojet-powered fighter design
- Messerschmitt Me 262 - world's first operational jet fighter.
- Gloster Meteor - first British jet fighter to see combat in the Second World War.
- Bell P-59A - first US jet fighter design
- P-80 Shooting Star - first US operational jet-fighter aircraft.
- Gloster E.1/44 - Gloster's third jet design to fly
- List of World War II jet aircraft
References[]
- Notes
- Bibliography
- James, Derek N. Gloster Aircraft since 1917. London: Putnam, 1987. ISBN 0-85177-807-0.
- Mondey, David. The Hamlyn Concise Guide to British Aircraft of World War II. London: Chancellor Press, 1994. ISBN 1-85152-668-4.
- Morgan, Eric B. "A New Concept of Flight" Twentyfirst Profile Vol. 1, no.8. New Milton, Hantfordshire, UK: 21st Profile Ltd. ISBN 0-9618120-0-4.
- "No Airscrew Necessary..." Flight(flightglobal.com), 27 October 1949.
- Swanborough, Gordon. British Aircraft at War, 1939-1945. East Sussex, UK: HPC Publishing, 1997. ISBN 0-9531421-0-8.
- Winchester, Jim. X-Planes and Prototypes. London: Amber Books Ltd., 2005. ISBN 1-904687-40-7.
External links[]
Wikimedia Commons has media related to Gloster E.28/39. |
- Meteor Flight
- First flight of the E.28/39 in 1941 and the background to the jet engine's development (American-focussed documentary)
- Footage of the first flight
- More footage
- Model replica
- "No Airscrew Necessary ... " a 1949 Flight article
- "Britain's First Jet Aeroplane" a 1971 Flight article by John Grierson
The original article can be found at Gloster E.28/39 and the edit history here.