Armstrong Siddeley ASX
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| Armstrong Siddeley ASX turbojet on display at the Rolls-Royce Heritage Trust, Derby |
The Armstrong Siddeley ASX was an early axial flow jet engine built by Armstrong Siddeley that first ran in April 1943.[1] Only a single prototype was constructed, and it was never put into production. A turboprop version as the ASP was somewhat more successful, and as the Armstrong Siddeley Python saw use in the Westland Wyvern.
History
In December 1941, Metrovick ran its Metrovick F.2 engine for the first time. While successful, the engine was too heavy to be a useful aircraft engine, and the Royal Aircraft Establishment (RAE) felt this was probably due to Metrovick's history as a steam turbine manufacturer without much aircraft experience. The RAE approached Armstrong Siddeley with an offer to help with the design, both to improve the F.2 and to get the company familiar with turbojet design so they might build their own designs, or others under license. However, Metrovick refused the offer, and no amount of effort on the part of Armstrong Siddeley or the RAE would change their opinion.Template:Sfn
Now highly interested in jet propulsion, Armstrong Siddeley began looking for other designs they could work on, and eventually hired Fritz Albert Max Hepner. Hepner had a design similar to the early designs of A. A. Griffith, in that the engine did not use separate compressor and turbine stages, but combined the two by attaching an individual turbine stage to each compressor stage, and rotating each stage in opposite directions. The main difference between Hepner's design and Griffith's was that the stages were not connected to a central shaft, but instead to a surrounding rotating shell.Template:Sfn
The RAE was not impressed with this design, and repeatedly refused to provide funding for its development, suggesting instead a much simpler design. Another major critic of the concept was Armstrong Siddeley's chief engineer, Stewart Tresilian, who had grudgingly taken the post in 1939 at the request of the RAE.Template:Sfn The Armstrong Siddeley board fired Tresilian in January 1942 and submitting their latest design proposal; once again it was rejected.Template:Sfn
It was not until August 1942 that the company was finally convinced to begin work on a simpler design.Template:Sfn Like the F.2, the plan was to use the RAE's compressor designs while Armstrong Siddeley would develop the turbines and the rest of the engine. This new experimental design became the ASX. An order for six examples was placed in October 1942, and the contract signed on 7 November.Template:Sfn
The engine ran for the first time on 22 April 1943, only 166 days after the contract was signed. The engine was soon producing 2,000 lbf. As soon as the Air Ministry was satisfied the company was able to make engines, they granted Armstrong Siddeley permission to make a Heppner-derived version. However, the company gave up on this as well, and decided to instead use the ASX as the basis for a turboprop, which became the ASP.Template:Sfn Thus the first example of the ASX would ultimately be the last as well. Testing continued on the ASX through the rest of the war, and by 20 April 1945 it had run for a total of 22 hours.Template:Sfn
Although A-S and Metrovick were not able to collaborate during the war, in the late 1940s the Ministry of Supply forced Metrovick to spin out their gas turbine division and handed it complete to Armstrong Siddeley in order to reduce the number of firms in the aviation business. So Armstrong Siddeley ultimately ended up with the F.2, and more importantly, the F.9 which would become the Armstrong Siddeley Sapphire.Template:Sfn
Design and development
The ASX was unique in layout. The inlet to the 14-stage compressor was placed near the middle of the engine, the air flowing forward as it was compressed. From there it fed into 11 flame cans arranged around the outside of the compressor, flowing back past the inlet, and finally through the turbine.[2]
This layout allowed the compressor and combustion areas to be "folded" together to make the engine shorter, although the overall reduction in the case of the ASX appears to be fairly limited as the engine was almost Script error: No such module "convert". long. Additionally, this layout makes it more difficult to service the compressor, although, at least in modern designs, it is the "hot section" that generally requires most servicing.[2]
The ASX was flight tested fitted to the bomb bay of a modified Avro Lancaster, ND784, the first flight taking place on 28 September 1945.
At full power the engine ran at 8,000 rpm and developed Script error: No such module "convert". of thrust at sea level. For cruise the engine ran at 7,500 rpm and developed Script error: No such module "convert".. It weighed Script error: No such module "convert".. The ASP conversion used a second turbine stage to drive the propeller through a gearbox, producing 3,600 shp, as well as Script error: No such module "convert". of leftover jet thrust.
Applications
- Avro Lancaster (Test only)
Specifications (ASX)
Data from Aircraft Engines of the world 1946.[3]
General characteristics
- Type: Axial flow turbojet
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- Diameter: Script error: No such module "convert".
- Dry weight: Script error: No such module "convert".
Components
- Compressor: 14-stage axial reverse-flow compressor
- Combustors: 11 stainless steel can combustion chambers arranged around the compressor
- Turbine: 2-stage axial
- Fuel type: Kerosene
- Oil system: pressure feed to bearings, dry sump
Performance
- Maximum thrust: Script error: No such module "convert". at 8,000 rpm at sea level
- Overall pressure ratio: 5:1
- Turbine inlet temperature: Script error: No such module "convert".
- Specific fuel consumption: 1.03 lb/(lbf h) (105 kg/(kN h))
- Thrust-to-weight ratio: 1.37
- Military thrust, static: Script error: No such module "convert". at 8,000 rpm at sea level
- Cruising, static: Script error: No such module "convert". at 7,500 rpm at sea level
- Idling, static: Script error: No such module "convert". at 3,000 rpm at sea level
See also
Related development
Related lists
References
Citations
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Bibliography
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- Gunston, Bill. World Encyclopedia of Aero Engines. Cambridge, England. Patrick Stephens Limited, 1989. Template:ISBN
- Jane's Fighting Aircraft of World War II. London. Studio Editions Ltd, 1998. Template:ISBN
- Smith, Geoffrey G.Gas Turbines and Jet Propulsion for Aircraft, London S.E.1, Flight Publishing Co.Ltd., 1946.
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External links
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