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Abstract
Adequate sealing in rotating machinery reduces secondary leakage and results in more efficient and stable systems. Labyrinth seals are most common, although brush seals are popular in specialized applications. The hybrid brush seal (HBS) is a novel design that adds to the bristle brush matrix a number of cantilever pads that rest on the rotor surface. Upon shaft rotation the pads lift due to the generation of a hydrodynamic gas film, and the brushes effectively seal an upstream pressure. Hence, the HBS has no wear and no local thermal distortion effects. This article presents measurements of leakage versus pressure differential obtained in a three-tooth labyrinth, a conventional brush seal, and a hybrid brush seal for operation at high temperature (300°C) and with shaft surface speeds to 26 m/s. The measurements demonstrate that the HBS leaks ∼ 31% less than a standard brush seal and is significantly better (∼ 68%) than a similarly sized labyrinth seal. As temperature increases, the labyrinth seal leakage decreases because its clearance changes due to the thermal growth of the components. The HBS, on the other hand, shows leakage that is nearly insensitive to air inlet temperature. The measurements demonstrate HBS as a reliable seal technology for use in gas turbines, for example.
ACKNOWLEDGEMENTS
The support of Siemens Power Generation, Inc., is gratefully acknowledged. Thanks to J. Justak, Advanced Technologies Group (ATG), for donating the brush seal and HBS. We acknowledge the participation of Dr. Adolfo Delgado during various stages of this research. His input and advice were fundamental to the success of this effort.
Review led by Gordon Kirk
Notes
a No blowdown effects accounted for.
1 The total torque equals the sum of the disc windage and bearing torques plus the seal torque