Parametric geometry models for hypersonic aircraft: integrated external inlet compression
Parametric geometry models for hypersonic aircraft: integrated external inlet compression
In this paper we are investigating a method for the design and integration of 3D external
compression inlet geometries on parametric geometries of air-breathing hypersonic aircraft.
We view the geometries as the first stage of a mixed compression inlet. The investigations are
based on waverider geometries generated with the osculating cones waverider forebody
design method. The osculating cones method is further utilized to create a second
compression surface before the inlet cowl, essentially creating a second waverider geometry
on the underside of the forebody. This way, we achieve greater compression for the part of
the flow to be captured by the inlet cowl using a geometry that does not require sidewalls
(like 2D ramps do), and has a potentially larger capture area than axisymmetric inlet
geometries such as half-cones. The integration method is explained in detail, validated and
further examined with CFD simulations. Those include measurements of the sensitivity of
the flowfield to angle of attack, sideslip and Mach number changes. A number of options for
designing the downstream internal compression part of the inlet are also discussed.
1-11
Kontogiannis, Konstantinos
95b0ed77-5f7c-4c69-a76f-3437031606ed
Taylor, Nigel
83a1254c-9d22-4ef6-be3d-cf8c4a0a89ab
Sobester, Andras
096857b0-cad6-45ae-9ae6-e66b8cc5d81b
Kontogiannis, Konstantinos
95b0ed77-5f7c-4c69-a76f-3437031606ed
Taylor, Nigel
83a1254c-9d22-4ef6-be3d-cf8c4a0a89ab
Sobester, Andras
096857b0-cad6-45ae-9ae6-e66b8cc5d81b
Kontogiannis, Konstantinos, Taylor, Nigel and Sobester, Andras
(2016)
Parametric geometry models for hypersonic aircraft: integrated external inlet compression.
54th AIAA Aerospace Sciences Meeting, San Diego, United States.
04 - 08 Jan 2016.
.
(doi:10.2514/6.2016-0915).
Record type:
Conference or Workshop Item
(Paper)
Abstract
In this paper we are investigating a method for the design and integration of 3D external
compression inlet geometries on parametric geometries of air-breathing hypersonic aircraft.
We view the geometries as the first stage of a mixed compression inlet. The investigations are
based on waverider geometries generated with the osculating cones waverider forebody
design method. The osculating cones method is further utilized to create a second
compression surface before the inlet cowl, essentially creating a second waverider geometry
on the underside of the forebody. This way, we achieve greater compression for the part of
the flow to be captured by the inlet cowl using a geometry that does not require sidewalls
(like 2D ramps do), and has a potentially larger capture area than axisymmetric inlet
geometries such as half-cones. The integration method is explained in detail, validated and
further examined with CFD simulations. Those include measurements of the sensitivity of
the flowfield to angle of attack, sideslip and Mach number changes. A number of options for
designing the downstream internal compression part of the inlet are also discussed.
Text
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- Accepted Manuscript
More information
e-pub ahead of print date: January 2016
Venue - Dates:
54th AIAA Aerospace Sciences Meeting, San Diego, United States, 2016-01-04 - 2016-01-08
Organisations:
Computational Engineering & Design Group
Identifiers
Local EPrints ID: 394893
URI: http://eprints.soton.ac.uk/id/eprint/394893
PURE UUID: 8f0767b3-203f-4bb9-af55-6258a60ed4f3
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Date deposited: 31 May 2016 13:17
Last modified: 15 Mar 2024 03:13
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Contributors
Author:
Konstantinos Kontogiannis
Author:
Nigel Taylor
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