Fluid reaction surfaces (i.e. – impellers) – With heating – cooling or thermal insulation means – Changing state mass within or fluid flow through working...
Reexamination Certificate
2001-11-30
2004-01-27
Look, Edward K. (Department: 3745)
Fluid reaction surfaces (i.e., impellers)
With heating, cooling or thermal insulation means
Changing state mass within or fluid flow through working...
C416S189000
Reexamination Certificate
active
06682304
ABSTRACT:
FIELD OF THE INVENTION
The invention relates to a cooled gas turbine blade with a shroud in which a cooling channel system is provided, which is closed off radially to the gas turbine blade with a cover plate.
BACKGROUND OF THE INVENTION
In an effort to increase the efficiency of turbine power machines, in particular of gas turbine systems, the achieving of the highest possible combustion temperatures plays an especially important role, in particular since this allows a direct optimization of the thermal efficiency of the combustion process. High combustion temperatures have the result, however, that the gas turbine components exposed to the hot gases generated during the combustion process are also subject to extremely high thermal loads on the material. The latter, at the same time, constitute the current technical limits for a potential further increase of the combustion temperatures, especially since the temperatures that can be achieved inside the combustor are far above the thermal load limits of those materials of which the gas turbine components in the hot channel of the gas turbine are made, most of all the gas turbine blades.
In order to be able to nevertheless increase the thermal load limits of the system components in the hot gas channel, in spite of existing, material-specific maximum temperatures, the heat-exposed system components are actively cooled by means of a targeted supply of cooling air by providing corresponding cooling channel systems.
As already mentioned above, the gas turbine blades positioned downstream from the combustor require, as a result of the high thermal load, highly effective cooling measures in order to not exceed the material-specific temperature limits necessary for continuous operation inside the blade arrangements.
In an actually known manner, gas turbine blades, regardless of whether they are rotating or guide blades, usually consist of a blade root and a blade hub, where in most cases a shroud projects radially over the blade hub. The cooling system provided inside a gas turbine blade usually consists of a plurality of individual cooling channels that extend from the sides of the blade roots radially through the entire turbine blade up to the shroud. Within the shroud, cooling channel areas are provided, in which flow guidance structures for removing and deflecting cooling air are provided in order to improve the cooling effect inside the shroud.
For reasons resulting from the casting process during the blade production, a turbine blade existing as a semi-finished product following the casting process and the removal of the casting core that produces, among other things, the cooling channels, is provided in particular in the area of the shroud with large openings that permit a later insertion of the previously mentioned flow guidance structures, for example an impact cooling plate, which must be sealed, however, so as to be gas-tight. For this purpose, a closing plate or so-called cover plate, which is largely adapted to the opening contour, is used, said closing plate usually being connected with the shroud of the gas turbine blade by way of high-temperature soldering.
FIGS. 2
a
to
2
c
illustrate an actually known connection between a cover plate
6
and the shroud
2
of a turbine blade.
FIG. 2
a
shows a perspectival illustration of a turbine blade with a blade hub
1
and a shroud
2
. The shroud
2
has two side edges
4
and
5
, each of which is constructed with a groove contour
3
, along which a cover plate
6
is inserted in a shape-mated manner. The cross-section according to section line S
1
is shown in
FIG. 2
b
. The groove contour
3
partially covers the cover plate
5
inserted into the shroud
2
, said cover plate being fixed, in addition to the shaped-mating between the groove contour
3
and the cover plate
6
by way of a soldering connection
7
. The cross-section illustration according to
FIG. 2
b
shows the cooling channels K enclosed between the cover plate
6
and the shroud
2
, through which cooling channels the cooling air is fed through the cooling system (not shown in further detail) inside the gas turbine blade.
If a break inside the soldering joint (
7
) occurs along the joint connection that is shape-mated and incorporated into the material along the side edges
4
and
5
, the cover plate
6
along side edge
4
is unable to detach because of the existing shape-mating of the shroud
2
. The situation is different, though, along the front and backside edges
8
and
9
in
FIG. 2
a
, the associated section of which side edges along section line S
2
is illustrated in
FIG. 2
c
. Along the side edges
8
and
9
, the cover plate
6
is joined with the shroud
2
only by a soldering connection
7
by way of a metallurgical joint. There is no additional shape-mating in this case. If, however, tears occur inside the soldering joint
7
in the area of this joint connection as a result of the high thermal loads, as well as mechanical deformation created during the operation of a gas turbine, this inevitably results in local detachments between the cover plate
6
and the shroud
2
, which finally lead to the total loss of the cover plate
6
. Such a cover plate loss leads to catastrophic damage in the gas turbine system, however, which requires the system to be stopped in order to be able to perform extensive repair work.
SUMMARY OF THE INVENTION
The invention is based on the objective of constructing a cooled gas turbine blade with a shroud in which a cooling channel system is provided that is closed off radially to the gas turbine blade in such a way that the cover plate is joined with the shroud in a secure manner, and in which the previously mentioned total loss of the cover plate can be excluded. Another objective is to decisively minimize losses due to leakage in the case of tears occurring in the joint connection between the cover plate and the shroud. The measures to be instituted hereby should require only a small expenditure for construction, which would not or would only insignificantly increase the manufacturing costs of cooled gas turbine blades.
According to the invention, a cooled gas turbine blade is constructed in such a way that the cover plate has a circumferential edge, along the entire extension of which the cover plate enters into a continuous shape-mated connection or a number of locally limited shape-mated connections with the shroud of the gas turbine blade.
Starting with the initially described state of the art according to the gas turbine blade illustrated in
FIG. 2
a
ensures only a shape-mated connection between the cover plate and the shroud at two facing side edges because of the receptacle groove existing there, the objective is to also provide corresponding shape-mated connections along the other two side edges, so that the cover plate enters, if possible, a shape-mated connection with the shroud of a gas turbine blade along its entire circumferential edge.
Due to construction and assembly, this requirement cannot be fulfilled with the actually known gas turbine blade according to
FIG. 2
a
, especially since the cover plate is pushed into the receptacle groove
3
sideways, longitudinally to the,side edges
4
and
5
for assembly. Any later attachment of corresponding, groove-shaped longitudinal ridges along the side edges
8
and
9
on the shroud
2
illustrated in
FIG. 2
a
would decisively increase the total expenditure in the production of the gas turbine; additionally, the soldering joints needed for the attachment of such potential lateral ridges represent additional mechanical “breakaway points.”
In contrast, a shroud constructed according to the invention provides a receptacle contour adapted to the shape and size of the circumferential edge in the sense of a box edge, into which the cover plate can be completely inserted radially. The receptacle contour preferably has a stepped cross-section, comparable to that of a picture frame, into which a picture can be placed from the back. The stepped cross-section of the receptacle contour hereby has radially
Beeck Alexander
Fried Reinhard
Oehl Markus
Alstom Technology Ltd
Burns Doane Swecker & Mathis L.L.P.
Edgar Richard A.
Look Edward K.
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