Allison J33
J33 | |
---|---|
Allison J33-A-35 Turbojet Engine | |
Type | Turbojet |
Manufacturer | General Electric Allison Engine Company |
First run | 1942 |
Major applications | Lockheed P-80 Shooting Star Lockheed T-33 Shooting Star Lockheed F-94A/B Starfire SSM-N-8 Regulus |
Developed from | General Electric J31 |
The General Electric/Allison J33 was a development of the General Electric J31, enlarged to produce significantly greater thrust, starting at 4,000 lbf (18 kN) and ending at 4,600 lbf (20 kN) with an additional low-altitude boost to 5,400 lbf (24 kN) with water-alcohol injection.
Development
The J33 was originally developed by General Electric as a follow-on to their work with the designs of Frank Whittle during World War II. Their first engine was known as the I-A, but after major changes to adapt it to US production and to increase thrust, it started limited production as the I-16 in 1942, the 16 referring to its 1,600 lbf (7.1 kN) thrust. Full production started as the J31 when the United States Army Air Forces introduced common naming for all their engine projects.
Along with the I-16, GE also started work on an enlarged version, known as the I-40. As the name implied, the engine was designed to provide 4,000 lbf (18 kN). The development cycle was remarkably rapid. Design work started in mid-1943 and the first prototype underwent static testing on January 13, 1944.
Lockheed was in the midst of the XP-80 project at the time, originally intending to power their design with a US-produced version of the Halford H-1 of about 3,000 lbf (13 kN). Production of the H-1 ran into delays, and since the I-40 would dramatically improve performance, plans were made to fit the prototypes with the I-40 instead.
The I-40 became important to the USAAF's plans when the I-16 powered P-59 was skipped over in favor of the I-40 powered P-80 as the US's first production jet fighter. In 1945 the license to actually produce the engine was not given to General Electric, but Allison instead. Allison, working largely from government-owned wartime factories, could produce the engine in quantity more quickly and cheaply.
By the time the production lines were shut down Allison had built over 6,600 J33's, and General Electric another 300 (mostly the early runs).
In 1958, surplus J33s were used in jet donkeys pushing dead loads at 200 knots to test aircraft carrier arresting gear cables and tailhooks at Lakehurst.[1]
Variants
- J33-A-14
- A short life engine powering the Chance-Vought Regulus, 4,600 lbf (20.46 kN) thrust.
- J33-A-16A
- Powering the Grumman F9F-7, 5,400 lbf (24.02 kN) thrust.
- J33-A-18A
- A short life engine powering the Chance-Vought Regulus.
- J33-A-21
- 4,500 lbf (20.02 kN) thrust.
- J33-A-22
- Powering the Lockheed T2V-1 with bleed air for boundary-layer control.
- J33-A-23
- 4,600 lbf (20.46 kN) thrust.
- J33-A-24
- 6,100 lbf (27.13 kN) thrust, powers the Lockheed T2V.
- J33-A-24A
- 6,100 lbf (27.13 kN) thrust, powers the Lockheed T2V.
- J33-A-33
- 6,000 lbf (26.69 kN) re-heat thrust.
- J33-A-35
- 4,600 lbf (20.46 kN) thrust / 5,400 lbf (24.02 kN) with water-alcohol injection, powers the Lockheed T2V and Lockheed T-33.
- J33-A-37
- A short life engine powering the Martin Matador, 4,600 lbf (20.46 kN) thrust..
Applications
- Convair XF-92
- Lockheed P-80 Shooting Star
- Lockheed T-33 Shooting Star
- Lockheed F-94A / F-94B Starfire
- North American AJ Savage
- MGM-1 Matador
- MGM-13 Mace
- SSM-N-8 Regulus
Specifications (Allison J33-A-35)
Data from [2]
General characteristics
- Type: Centrifugal compressor turbojet
- Length: 107 in (271.8 cm)
- Diameter: 50.5 in (128.3 cm)
- Dry weight: 1,820 lb (825.5 kg)
Components
- Compressor: single-stage double-sided centrifugal compressor
- Combustors: 14 can type stainless steel combustion chambers
- Turbine: Single-stage axial
- Fuel type: Kerosene (AN-F-32) or 100/130 gasoline
- Oil system: Wet sump, pressure spray at 42 psi (289.6 kPa)
Performance
- Maximum thrust: 4,600 lbf (20.46 kN) at 11,500 rpm at sea level for take-off
- Normal thrust, static: 3,900 lbf (17.35 kN) at 11,000 rpm at sea level
- Overall pressure ratio: 4.1:1
- Air mass flow: 87 lb (39.46 kg) /sec at 11,500 rpm
- Turbine inlet temperature: 1,320 °F (989 K; 716 °C)
- Specific fuel consumption: 1.14 lb/lbf/hr (111.84 kg/kN/hr)
- Thrust-to-weight ratio: 2.53 lbf/lb (0.025 kN/kg)
See also
- Related development
- Comparable engines
- Related lists
References
- Notes
- ↑ Dempewolff, Richard F. (June 1958). Jet "Donkeys" for the Jets. Popular Mechanics. pp. 72–75. Retrieved 25 October 2012.
- ↑ Bridgman, Leonard (1955). Jane's all the World's Aircraft 1955-56. London: Jane's all the World's Aircraft Publishing Co. Ltd.
- Bibliography
- Gunston, Bill. World Encyclopedia of Aero Engines. Cambridge, England. Patrick Stephens Limited, 1989. ISBN 1-85260-163-9
- Kay, Anthony L. (2007). Turbojet History and Development 1930-1960 Volume 2:USSR, USA, Japan, France, Canada, Sweden, Switzerland, Italy and Hungary (1st ed.). Ramsbury: The Crowood Press. ISBN 978-1861269393.
- Wilkinson, Paul H. (1946). Aircraft Engines of the world 1946. London: Sir Isaac Pitman & Sons. pp. 272–273.
External links
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