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Control mode analysis for advanced concept aero-engines

Control mode analysis for advanced concept aero-engines
Control mode analysis for advanced concept aero-engines
This paper describes a novel approach to the problem of control mode analysis for advanced concept gas turbine aero-engines. Using a multiobjective evolutionary algorithm, candidate control modes are selected and tested on models of the propulsion system to assess performance, safety, stability and other important design criteria. An example controller design problem, considering some of the problems likely to be associated with new variable cycle engine concepts, is presented to demonstrate how the proposed approach may be employed to examine many design objectives, from different disciplines, in parallel. Potential control schemes are evaluated and compared with one another within an optimization framework. This comparative analysis of different control modes may be used to make more informed decisions regarding the nature of the control to be employed, acceptable performance margins and elements of the engine design.
Chipperfield, A.
524269cd-5f30-4356-92d4-891c14c09340
Fleming, P.
d6db3df2-ce37-4875-8b66-71f994f308e1
Betteridge, H.
29d18ab7-9fb4-44c2-a45b-91558bb9917e
Chipperfield, A.
524269cd-5f30-4356-92d4-891c14c09340
Fleming, P.
d6db3df2-ce37-4875-8b66-71f994f308e1
Betteridge, H.
29d18ab7-9fb4-44c2-a45b-91558bb9917e

Chipperfield, A., Fleming, P. and Betteridge, H. (1997) Control mode analysis for advanced concept aero-engines. In 33rd Joint Propulsion Conference and Exhibit.

Record type: Conference or Workshop Item (Paper)

Abstract

This paper describes a novel approach to the problem of control mode analysis for advanced concept gas turbine aero-engines. Using a multiobjective evolutionary algorithm, candidate control modes are selected and tested on models of the propulsion system to assess performance, safety, stability and other important design criteria. An example controller design problem, considering some of the problems likely to be associated with new variable cycle engine concepts, is presented to demonstrate how the proposed approach may be employed to examine many design objectives, from different disciplines, in parallel. Potential control schemes are evaluated and compared with one another within an optimization framework. This comparative analysis of different control modes may be used to make more informed decisions regarding the nature of the control to be employed, acceptable performance margins and elements of the engine design.

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Published date: 9 July 1997
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Identifiers

Local EPrints ID: 470240
URI: http://eprints.soton.ac.uk/id/eprint/470240
PURE UUID: 8ce75a77-db42-4c04-bd55-9be79c47cc2a
ORCID for A. Chipperfield: ORCID iD orcid.org/0000-0002-3026-9890

Catalogue record

Date deposited: 05 Oct 2022 16:33
Last modified: 23 Feb 2023 02:45

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Contributors

Author: A. Chipperfield ORCID iD
Author: P. Fleming
Author: H. Betteridge

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