The invention relates to the field of combustion chambers for turbine engines and more particularly to the structure and the attachment of a flame tube in a combustion chamber of a turbine engine.
In known fashion and in connection with
The combustion chamber comprises a flame tube 2 arranged in the space defined by the inner 1a and outer 1b casings.
The flame tube 2 is delimited by inner 2a and outer 2b walls called inner and outer shrouds, and a chamber base plate 3 which serves as a support for the injectors 4.
Moreover, the combustion chamber also comprises a fairing 5 arranged in front of the chamber base to partially cover the injectors 4 and to protect them against possible shocks (which can be produced by the ingestion of a bird or a block of ice into the engines). And the combustion chamber comprises an air diffuser 6 leading to the injector 4.
The base plate 3, the inner 2a and outer 2b walls of the flame tube and the fairing 5 are assembled by bolts (not shown).
The combustion chamber of
On the other hand, one problem with the direct axial chamber type is that the axial bulk of the flame tube is considerable.
Another problem is that the attachments of the fairing, of the inner 2a and outer 2b walls and of the base plate are subjected to vibrations of the turbine engine as well as to thermal dilations of the sub-components of the chamber module which can degrade its operation, so that generally complex vibratory and thermal compensation systems are provided.
The invention proposes to mitigate at least one of these disadvantages.
To this end, the invention proposes, according to a first aspect, a combustion chamber of a turbine engine, comprising: an outer annular casing; a flame tube connected to the outer casing, said flame tube comprising an inner annular wall and an outer annular wall defining, on the one hand, a first radial portion at the inlet of the flame tube and on the other hand a second axial portion at the outlet of the flame tube, the first portion extending toward the second portion forming an elbow between the inlet and the outlet of the flame tube.
The invention is advantageously completed by the following features, taken alone or in any one of their technically feasible combinations.
The flame tube comprises a chamber base situated at the inlet of the flame tube, the chamber comprising at least one fuel injector for injecting fuel into the flame tube via the inlet of the flame tube, the flame tube being connected to the outer casing through said injector in connection with the chamber base.
The injector has a main direction coaxial with a longitudinal axis Y along which the first portion extends.
The injector comprises an injector body surrounding an injection tube through which fuel is brought into the flame tube, the injector body being inserted into a cylinder topping a connection disk connected to the chamber base.
The inner and outer annular walls of the flame tube are connected to the outer casing through the injector body.
The injector body is connected to the injection tube, the injector body being movable with respect to the cylinder.
The chamber comprises primary holes drilled in the inner and outer annular walls at the first portion and dilution holes drilled in the inner and outer annular walls at an elbow of the flame tube.
According to another aspect, the invention relates to a turbine engine comprising a combustion chamber according to the invention.
The invention allows a strong reduction in the axial bulk of the combustion chamber. This has the following advantages.
the mass of the engine is reduced:
the dynamic situation of the high pressure rotor, located below the combustion chamber, is improved:
the interface with the high pressure turbine is improved:
the ignition plug can be positioned at different positions: at the chamber base and/or at the corner of the chamber and/or on the outer wall.
Other features, aims and advantages of the invention will be revealed by the description that follows, which is purely illustrative and not limiting, and which must be read with reference to the appended drawings other than
In all the figures, similar elements bear identical reference symbols.
The combustion chamber comprises an outer casing 10a to which a flame tube 20 is connected.
The flame tube 20 comprises an inner annular wall 20a and an outer annular wall 20b.
The inner and outer annular walls define, on the one hand, a first radial portion 201 around an axis Y of the combustion chamber and which extends radially with respect to a longitudinal axis of rotation XX of the turbine engine.
On the other hand, the inner and outer annular walls define a second axial portion 202 around a longitudinal axis X perpendicular to the radial axis Y and parallel to the longitudinal rotation axis XX of the turbine engine.
As can be seen in
Such an elbow allows an efficient aerodynamic connection with a high-pressure stage downstream of the gas flow (dotted arrow in
In addition, this elbowed shape makes it possible to reduce the axial bulk of the flame tube 20.
The combustion chamber also comprises a chamber base 30 which forms a plate situated at the inlet of the flame tube 20.
An injector 40, through which the flame tube 20 is connected to the outer casing 10a of the turbine engine is attached to this chamber base 30.
In addition, the combustion chamber can possibly comprise a thermal shield 50 in the form of a plate attached to the chamber base 30 situated in the flame tube 20. This thermal shield 50 is situated at the inlet of the flame tube 20 and protects the injector 40 from high temperatures greater than 2200 K which can occur in the flame tube 20.
Primary holes 202a, 202b are drilled in the inner and outer annular walls at the first portion 201 at the inlet to the flame tube.
In addition, dilution holes 203a, 203b are drilled in the inner and outer annular walls at the elbowed portion of the flame tube 20 (see
As can be seen in
The inner and outer annular walls are attached to the outer casing 10a through the injector body 40a, thus allowing simplification of the bowl—chamber base connection and thus avoiding the use of a clearance compensation system.
A connection disk 40c topped by a cylinder 40d in which is inserted the body 40a of the injector is connected to the chamber base 30 in which a recess 30a at the size of the connection disk has been provided.
The body 40a of the injector is in connection with the injection tube 40b and the body 40a of the injector 40 is inserted into the cylinder 40d topping the connection disk 40c in such a manner that the injector body 40a (and therefore the injection tube 40b) is movable with respect to the cylinder 40d. This allows compensation of the movements to which the flame tube 20 is subjected. There is therefore no need for complex compensation systems.
The body 40a of the injector comprises an air inlet 40e through which the air originating from a diffuser 60 is introduced. This air allows the injector 40 to be cooled. The air inlet 40e has the shape of an oval recess formed in the injector body 40a.
Number | Date | Country | Kind |
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1553876 | Apr 2015 | FR | national |
Filing Document | Filing Date | Country | Kind |
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PCT/FR2016/051004 | 4/28/2016 | WO | 00 |