Platelike projecting component portion of a gas turbine

Fluid reaction surfaces (i.e. – impellers) – With heating – cooling or thermal insulation means – Changing state mass within or fluid flow through working...

Reexamination Certificate

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Reexamination Certificate

active

06565317

ABSTRACT:

This application claims priority under 35 U.S.C. §119 and/or 365 to Appln. No. 100 16 081.6 filed in Germany on Mar. 31, 2001; the entire content of which is hereby incorporated by reference.
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention relates to a platelike projecting component portion of a gas turbine, and more particularly, a platelike projecting component portion with a surface upon which hot gas acts and with cooling bores through which a cooling medium is capable of flowing.
2. Related Art
Component portions of components used in gas turbines are often encountered where an overhanging region is provided for various manufacturing reasons on a main component, such as, for example, on blades and fastening elements, on sealing elements that are to be mounted, and between two adjacent components. Overhanging component portions of this kind present problems, especially in regions which are subjected to high thermal load and in which hot gas acts upon the surface. It is often necessary to provide cooling for these overhanging component portions.
EP 0 911 486 A2 discloses a cooled blade of a gas turbine, in which overhanging regions in the form of platelike projecting component portions are mounted in front of and behind the blade root in the axial direction, in order to ensure an overlap in the hub region with the adjacent blade root regions of rotor blades. Cooling bores are provided for cooling these platelike projecting component portions, with cooling air flowing through the cooling bores to provide convective heat transfer. The cooling bores run, for example, in the front overhanging component portion in the circumferential direction and are fed from the main cooling-air supply. As a result of the high thermal load in this region, turbulence generators are additionally present in the cooling bores in order to improve the heat transmission.
The rear overhanging component portion has a multiplicity of axially running cooling bores which are likewise fed from the main cooling-air supply. The cooling bores issue axially at the end of the component portion, so that the cooling medium, after flowing through the cooling ducts, emerges into the hot-gas stream.
Both component portions have in common the fact that the surface upon which the hot gas acts is cooled purely convectively. One disadvantage of this is that a very large amount of cooling air has to be expended in order to achieve the necessary cooling effect. This results in an impairment of overall efficiency and makes it necessary to employ costly materials resistant to high temperature.
The invention attempts to avoid the disadvantages described above. In accordance with an embodiment of the invention, a platelike projecting component portion of a gas turbine component is provided, which allows a more effective cooling of the surface upon which hot gas acts. The component therefore has an increased useful life, at the same time with a reduced cooling-air requirement.
In accordance with an embodiment of the invention, a platelike projecting component portion includes a plenum which is assigned solely to the component portion, so that optimum cooling of the surface upon which hot gas acts becomes possible. The plenum is arranged to be directly adjacent to the surface to be cooled and has the cooling medium flowing through it to provide convective heat transfer. Furthermore, the cooling bores are designed as blow-out orifices which emanate from the plenum and issue the cooling medium onto the surface upon which hot gas acts. It is thus possible to implement extremely effective film cooling on the surface upon which hot gas acts, while the coolant consumption can be kept extremely low. The reason is that the cooling air first flows through the region to be cooled and provides convective heat transfer, and then by being blown out along the surface exposed to hot gas, the cooling air also forms a highly effective cooling film.
Although, in principle, there is broad freedom of design as regards the configuration of the plenum, it has proved advantageous if a single continuous plenum is provided, which passes essentially completely through the component portion. In this way, the surface upon which hot gas acts is cooled uniformly and without local interruption caused, for example, by intermediate walls, with the result that a greatly improved cooling effect can be implemented.
A series of preferred embodiments according to the invention provide simple and cost-effective implementations of this cooling concept. The choice of the process for optimizing the shape of the plenum depends mainly on the method of producing the actual component on which the platelike projecting portion is to be provided. Other important factors are the geometry to be implemented and the manufacturing prerequisites.
In the case of turbine blade overhangs manufactured according to the invention, the plenum can be shaped conjointly during shaping of the component by the casting method. This is possible, as a rule, without much additional outlay, since after removal from the casting mold the plenum has already been formed, and subsequent machining is not required.
As a rule, a multipart core is used, in order to implement the desired geometry of the plenum. If appropriate, lateral perforations for positioning the core may be necessary, which can be closed subsequently after the shaping process.
In an alternative embodiment, the plenum can be formed by means of a cavity in the component portion that is open, for example, opposite the surface to be cooled, and can therefore be closed by means of a cover that is subsequently mounted. This alternative avoids the need for providing a core to form the plenum. The advantage of this variant is improved flexibility in the design of the geometry of the plenum. The cover used to close the cavity in the component portion can be mounted by means of cost-effective connection methods, such as, for example, soldering or welding.
Finally, it is also possible to produce both the plenum and the blow-out orifices by means of the Electrical Discharge Machining (EDM) method. This method allows the shape, size and arrangement of the blow-out orifices to be selected freely and implemented with the highest possible precision. Also, the plenum can be manufactured using this method. Lateral outflow orifices, such as are necessary for producing the plenum, may remain completely or partially open as additional blow-out orifices, depending on the cooling requirements. Otherwise, the lateral outflow orifices that are not needed can be closed after the shaping operation. The plenum is preferably connected via feed ducts to a main plenum, which supplies the blade with cooling air. No direct connection to the cooling-medium supply is therefore necessary, with the result that the manufacturing costs can be reduced.
Although the above-described cooling concept can be implemented for use in any desired components subjected to high thermal loads, it is employed preferably on overhangs of turbine blades. The overhangs of turbine blades experience particularly high thermal loads, and a coolant supply is usually provided in the immediate vicinity of the overhang, with the result that the cooling concept according to the invention can be implemented in a particularly simple way.

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