This invention relates to turbine engines, and more particularly to turbine engine augmentors.
Afterburners or thrust augmentors are known in the industry. A number of configurations exist. In a typical configuration, exhaust gases from the turbine pass over an augmentor centerbody. Additional fuel is introduced proximate the centerbody and is combusted to provide additional thrust. In some configurations, the augmentor centerbody is integrated with the turbine centerbody. In other configurations, the augmentor centerbody is separated from the turbine centerbody with a duct surrounding an annular space between the two. U.S. Pat. Nos. 5,685,140 and 5,385,015 show exemplary integrated augmentors.
The centerbody may contain a burner serving as a combustion source. For introducing the additional fuel, a number of spray bars may be positioned within generally radially extending vanes. A pilot may be proximate an upstream end of the tailcone. Alternatively or additionally to the burner, a number of igniters may be positioned within associated ones of the vanes to ignite the additional fuel. Trailing portions of the vanes may serve as flameholder elements for distributing the flame across the flow path around the centerbody.
Separately, electro-graphitic carbon materials have been developed for a variety of uses. US Pre-grant Publication 20050084190A1 discloses a variable vane inner diameter (ID) bushing made from electro-graphitic carbon.
Accordingly, one aspect of the invention involves a turbine engine augmentor. A centerbody is positioned within a gas flowpath from upstream to downstream. A plurality of vanes are positioned in the gas flowpath outboard of the centerbody. An aumentor fuel conduit extends through a first of the vanes to deliver fuel to the centerbody. An electrographitic carbon bushing guides and supports the augmentor fuel conduit.
The details of one or more embodiments of the invention are set forth in the accompanying drawings and the description below. Other features, objects, and advantages of the invention will be apparent from the description and drawings, and from the claims.
Like reference numbers and designations in the various drawings indicate like elements.
The augmentor comprises a centerbody 30 generally symmetric around the axis 26 and formed as a portion of an engine hub. The exemplary centerbody has a main portion 32 and a tailcone 34 downstream thereof.. Circumferentially arrayed vanes 36 have leading and trailing extremities 37 and 38 and extend generally radially between the centerbody 30 and a turbine exhaust case (TEC) 40. Each of the vanes may be an assembly of a leading main body portion 42 and a trailing edge box 44. The vanes have circumferentially opposite first and second sides 46 and 48 (
The brackets 68 and 70 have pairs of mounting ears 82; 84 and 86; 88 extending from edges of the associated collar/boss portion 74; 76 and meeting along the plane 72. Each ear is secured to an opposite ear of the other bracket by a fastener (e.g., bolts/nuts 90 and 92). The brackets 68 and 70 are, in turn, secured to support brackets 94 and 96, respectively, by bolts 100 and 102. The brackets 94 and 96 are, in turn, mounted to the turbine exhaust case 40.
The exemplary bushing 66 is longitudinally split along a parting plane 104 into first and second pieces 106 and 108 (
The exemplary bushing consists essentially of electro-graphitic carbon. This material is believed to have an advantageous combination of preferential wear relative to the conduit material (e.g., a nickel-based superalloy) with which the bushing interacts. In addition to wearing preferentially to mating details, the electrographitic material used for the wear members may deposit a thin layer of graphite at the wear interface. This deposition may serve to further reduce the rates of wear. Additionally, the electro-graphitic carbon has advantageous temperature stability relative to polymers and other non-metallic sacrificial wear materials used in other applications.
Alternative implementations may be other than monolithic electro-graphitic carbon structures. For example, the bushings may have structural cores of another material (e.g., a metal) or could have additional layers such as coatings.
One or more embodiments of the present invention have been described. Nevertheless, it will be understood that various modifications may be made without departing from the spirit and scope of the invention. Accordingly, other embodiments are within the scope of the following claims.
The invention was made with U.S. Government support under contract N00019-02-C-3003 awarded by the U.S. Navy. The U.S. Government has certain rights in the invention.