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The Ansty Noise Facility—its Design, Instrumentation and Future Commitments

Published online by Cambridge University Press:  04 July 2016

J. L. Flintoff
J. L. Flintoff*
Affiliation:
Ansty Noise & Compressor Test Facility, Bristol Engine Division, Rolls-Royce Ltd.
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Extract

My connections with,the helicopter industry covered a period of some ten years, working principally on the jet reaction rotorcraft Fairey Rotodyne, and my only regret about this exceptional aircraft was that it never entered airline service. VTOL/STOL projects currently being bandied around today for civil use appear to'have made very slow progress in noise reduction since that time.

It was on this aircraft that I really got to grips with the noise problem, and with this experience behind me, my present task with Rolls-Royce became much more invigorating and refreshing. If for no other reason than, if you generate the noise, you are the principal agency which is required to set about removing it.

My present paper is really a factual presentation of the Ansty Noise Facility and its relationship with the general lowering of sound levels of the next generation of gas turbine engines. It is therefore slanted more to the fixed wing CTOL type of aircraft powerplant, although VTOL/STOL applications are now being studied at scale size.

Type
Research Article
Information
The Aeronautical Journal , Volume 75 , Issue 726 , June 1971 , pp. 397 - 406
Copyright
Copyright © Royal Aeronautical Society 1971 

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References

1. Proposal for a Compressor Noise Test Facility. Bristol Siddeley Engines Ltd. Brochure TM 105, June 1964.Google Scholar
2. Aero Engine Compressor and Turbine Test Facility. Bristol Siddeley Engines Ltd. SGH/BEE/568, July 1960.Google Scholar
3. Bromochlorodifluoromethane Fixed Systems. ICI Mond Division—Report TS/C/9019, June 1966.Google Scholar
4. Evans, J. R. Ansty l/40th Scale Model—Flow Pattern Studies. Rolls-Royce Ltd, Hucknall. Report DMB/WFW 10/JEB, April 1965.Google Scholar
5. Evans, E. J. and Bazley, E. N. Sound absorbing materials. Mintech—NPL, June 1960.Google Scholar
6. Quirk, J. Allen Parallel Shaft Gearbox—Ansty. Noise Facility. W. H. Allen Ltd. W.I. 8212, February 1967.Google Scholar
7. Mathews, P. Fixed Ratio Epicyclic Gear. Brochure 149F. Compact Orbital Gears, January 1967.Google Scholar
8. Marshall, D. J. “Real Time” Systems for Noise Analysis. Rolls-Royce Ltd. EIR 20, August 1967.Google Scholar
9. Hemmett, G. Digital Data Recording System for Ansty Noise Test Facility. Rolls-Royce Ltd, Bristol Engine Division. TM 135, July 1969.Google Scholar
10. Smith, M. J. T. Softly, Softly Towards the Quiet Jet. New Scientist, 19th February 1970.Google Scholar