Noise predictions for a supersonic business jet using advanced take-off procedures-Reference-Cited by-同舟云学术

Noise predictions for a supersonic business jet using advanced take-off procedures

Published:2018-02-19 Issue:1250 Volume:122 Page:556-571
ISSN:0001-9240
Container-title:The Aeronautical Journal
language:en
Short-container-title:Aeronaut. j.

Author:

Berton J. J.,Jones S. M.,Seidel J. A.,Huff D. L.

Abstract

ABSTRACTSupersonic civil aircraft present a unique noise certification challenge. High specific thrust required for supersonic cruise results in high engine exhaust velocity and high levels of jet noise during take-off. Aerodynamics of thin, low-aspect-ratio wings equipped with relatively simple flap systems deepen the challenge. Advanced noise reduction procedures have been proposed for supersonic aircraft. These procedures promise to reduce certification noise levels, but they may require departures from normal reference procedures defined in noise regulations. The subject of this article is a take-off performance and noise assessment of a notional supersonic business jet. Analytical models of an airframe and a supersonic engine derived from a contemporary subsonic turbofan core are developed. These models are used to predict take-off trajectories and certification noise levels. Results indicate advanced take-off procedures are helpful in reducing noise along lateral sidelines.

Publisher

Cambridge University Press (CUP)

Subject

Aerospace Engineering

Reference28 articles.

1. Morgenstern J. et al. Advanced concept studies for supersonic commercial transports entering service in the 2018-2020 period phase 2, NASA CR 2015-218719, 2015.

2. Fink M.R. Airframe noise prediction method, FAA RD-77-29, March 1977.

3. Zorumski W.E. Aircraft noise prediction program theoretical manual, Parts 1 and 2, NASA TM-83199, 1982.

4. Grantham W.D. and Smith P.M. Development of SCR aircraft take-off and landing procedures for community noise abatement and their impact on flight safety, in Supersonic Cruise Research, NASA CP 2108, 1979, pp 299–333.

5. Boeing Commercial Airplanes, High-speed civil transport study, NASA CR-4233, 1989.

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