This invention relates to a casing. More particularly this invention relates to a casing for a combustion chamber of a gas turbine engine.
A ducted fan gas turbine engine generally comprises, in axial flow series, an air intake, a propulsive fan, an intermediate pressure compressor, a high pressure compressor, combustion equipment, a high pressure turbine, an intermediate pressure turbine, a low pressure turbine and an exhaust nozzle.
The structure and operation of all these components is generally well known and consequently, with the exception of the combustion equipment, will not be described in great detail in this specification.
Combustors and combustor casings can have a large number of apertures. The apertures allow access for components such as fuel manifolds, probes and ignitors which, partly due to the high temperatures within the combustion chamber, must necessarily by positioned externally of the combustion chamber outer casing.
The apertures must be reinforced against stresses. Traditionally this is achieved by reinforcing the rim of the aperture with some of the material from which the casing is formed.
The casing and rim reinforcement are typically formed by casting or forging. In a forging process a volume of material is heated shaped by two or more dies. The material undergoes plastic deformation and conforms to the shape of the die. The volume of the material does not alter significantly in the forging process.
Where provision for apertures are formed as part of the forging process a volume of material equal to the size of the aperture must formed. In some areas this volume of material may be used to form the reinforcing rims of the apertures, in other areas the volume of material is dispersed around the casing and must subsequently be removed.
Where the aperture requires reinforcement greater than the casing thickness an additional volume of material must be added in the forging process.
Gas turbines have weight and cost considerations that must be addressed. Where a turbine provides thrust for a transport device such as a ship or plane reducing the weight of the engine can have a beneficial effect on the efficiency of the transport device and can lead to a reduction in the fuel consumption.
It is an object of the present invention to seek to provide an improved reinforced aperture.
According to the present invention there is provided a combustion casing for use in a gas turbine, the casing having an aperture extending therethrough, characterised in that the aperture has a reinforcing member extending across and dividing the aperture.
Preferably the aperture has a rim extending around the periphery of the aperture and preferably the rim is raised from a substantially planar area of the casing.
Preferably the reinforcing member is integral with the rim.
Preferably the rim and the reinforcing member are formed simultaneously by casting, sintering or forging.
Preferably the rim is integral with the casing.
Preferably the rim and the casing are formed simultaneously by casting, sintering or forging.
The rim may be subject to a stress field and preferably the reinforcing member is orientated so as to align with the direction of maximum stress field. The reinforcing member may be a single or plural bar that may be straight, curved or serpentine.
The term “casing” in this specification includes hoods, cowling, sheets, combustors, combustor casings and other components having similar functionality to the above.
The present invention will now be described, by way of example only, with reference to the accompanying drawings in which:
The combustion chamber 24 is defined by an outer combustor wall 26 and an inner combustor wall 28, the internal volume being adapted to allow multiple combustion zones.
A series of regularly spaced fuel injectors 30 extend through a bulkhead 32 that forms one wall of the combustion chamber. The fuel injectors mix air with fuel and eject it into the combustion chamber as a finely dispersed mixture.
Fuel is supplied to the injectors via a conduit that extends through apertures in the combustion outer casing 22. Also extending through apertures in the combustion chamber outer casing are igniters that ignite the finely dispersed air and fuel mixture injected into the combustion chamber by the fuel injectors.
The material of the combustion outer casing is a high temperature nickel alloy or steel. The rim reinforces the casing against stresses that are created by the presence of the apertures and movement induced by pressure fluctuations in the combustor.
To adequately overcome hoop stresses the volume of material within the rim is typically equal to that lost in the formation of the aperture.
A reinforcing member of this type uses significantly less volume of material than that of the prior art to achieve an equal or better reinforcement. The overall volume of material for the casing is reduced. Where a large number of apertures are provided, as in the combustor outer casing, it can result in lower forging and machining costs and a significant cost saving in the amount of material required as well as a reduction in the weight of the component.
Where reinforcement is achieved through the provision of a reinforcement member of the present invention it is possible to increase the size of the aperture without loss of functionality due to detrimental effects caused by stresses on the component. The cost and weight savings offered by the present invention are thereby further enhanced.
It will be appreciated that other embodiments may be apparent to the skilled reader without departing from the inventive concept of the present invention.
Each feature described herein may be incorporated into the claims either independently or in combination with any other feature.
Number | Date | Country | Kind |
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04262143 | Nov 2004 | GB | national |