The subject matter disclosed herein relates generally to the field of turbine wheels and, in particular, to scallop curvature for a radial turbine wheel.
In the majority of gas turbine engines, a combustion chamber is provided between an air compressor means and a turbine wheel. When the engine is operated, fuel is mixed with compressed air from the compressor and the mixture is burned in the combustion chamber to provide hot gases that are directed through a nozzle against the blades of the turbine wheel to affect rotation thereof. The turbine wheel, in turn, powers the compressor and provides other functions like starting engines, powering generators, powering pneumatic systems etc. These turbine wheels may be subject to stresses.
Disclosed is a turbine wheel disposed about an axis and having a back face including a plurality of lobes disposed about a periphery of the back face. The lobes define scalloped areas therebetween. The scalloped areas are further defined by a radius BR2 that blends into a first lobe and into a radius BR1 that also blends into a flat area.
Further disclosed is a turbine wheel disposed about an axis that has a back face including a plurality of lobes that are disposed about a periphery of the back face. The lobes define scalloped areas therebetween. The scalloped areas are further defined by a radius BR2 that blends into a first lobe and into a radius BR1 that also blends into a flat area. A blade extends from each lobe away from the back face.
The various features and advantages of the disclosed examples will become apparent to those skilled in the art from the following detailed description. The drawings that accompany the detailed description can be briefly described as follows.
Referring to
Referring to the front 20 (see
Referring to the prior art example of
Referring now to the prior art example of
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Referring now to
The Applicants have discovered that, given the high stresses experienced by prior art turbine wheels due to high pressure and temperature gradients thereof, crack propagation may be stimulated from one blade 65 to another which may result in segmenting the turbine wheel 10. By providing a large radius (e.g., an infinite or flat area OL, L) between the other radii minimizes abrupt rates of change of velocity that may occurs at an apex of curvature of the other radii which correspond to the location of the highest stress amplitudes. Crack propagation may then be minimized. The highest stress amplitudes are reduced if a flat area OL, L is placed between the convergent and divergent sides e.g., between IR1 and IR2 and between OR 3 and OR4 (see
Referring to
It will be understood that the example dimensions BR1, BR2, BR3, BR4, and BF are scalable to maintain the reduced stress configuration described herein. For example, a stress reduction of about 10% over the prior art can be achieved when BF is between about 0.04 inches (about 0.1 cm) and about 0.06 inches (about 0.15 cm). Radii BR1 and BR2 have a common tangent point. Similarly, radii BR3 and BR4 have a common tangent point. Radius BR1 may be greater than or equal to three times radius BR2. Radius BR4 may be greater than or equal to three times radius BR3.
Referring to
The turbine wheel 10 may experience high tensile and compressive stresses in the scalloped area 150 during start up and shut down of an engine (not shown). During start up, the portion of the blades 65 near the scalloped areas 150 warms up faster than the hub 55, which may cause high compressive thermal stresses at the scalloped areas 150. During shut down, the blades 65 in the scalloped areas 150 cool down faster than the hub 55 which may cause high tensile thermal stresses in the scalloped areas 150. The further imposition of centrifugal stresses, results in the scalloped areas 150 further experiencing high compressive stresses during start up and high tensile stresses during shut down while the hub 55 experiences relatively less tensile stresses during start up and less compressive stresses during shut down. However, by providing a flat area BF between BR1 and BR4 radii and providing compound radii BR2 and BR3 that blend into the blades 65, compressive, centrifugal, tensile and thermal stresses may be lessened.
In general, along the stress trajectory on the surface of the solid body, a smooth and continuous curve of different curvatures, including a flat area BF, may be required to avoid the abrupt raise in the strain rate. For the turbine wheel scallop applications, a curve featuring the compound radii BR2, BR3 are used to alleviate the stress that a one-dimensional radius does not accommodate.
Although a combination of features is shown in the illustrated examples, not all of them need to be combined to realize the benefits of various embodiments of this disclosure. In other words, a system designed according to an embodiment of this disclosure will not necessarily include all of the features shown in any one of the Figures or all of the portions schematically shown in the Figures. Moreover, selected features of one example embodiment may be combined with selected features of other example embodiments. For example, the features described and depicted in reference to
The preceding description is exemplary rather than limiting in nature. Variations and modifications to the disclosed examples may become apparent to those skilled in the art that do not necessarily depart from the essence of this disclosure. The scope of legal protection given to this disclosure can only be determined by studying the following claims.
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Number | Date | Country | |
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20130017090 A1 | Jan 2013 | US |