The application of compliant filament seals to jet engine secondary air systems has been shown to yield significant improvements in specific fuel consumption and improved emissions. One such technology, the leaf seal, provides comparable leakage performance to the brush seal but offers higher axial rigidity, significantly reduced radial stiffness, and improved compliance with the rotor. Investigations were carried out on the Engine Seal Test Facility at the University of Oxford into the behavior of a leaf seal prototype at high running speeds. The effects of pressure, speed, and cover plate geometry on leakage and torque are quantified. Earlier publications on leaf seals showed that air-riding at the contact interface might be achieved. Results are presented which appear to confirm that air-riding is taking place. Consideration is given to a possible mechanism for torque reduction at high rotational speeds.
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July 2016
Research-Article
Experimental Investigation of a Leaf Seal Prototype at Engine-Representative Speeds and Pressures
Michael J. Pekris,
Michael J. Pekris
Structures & Transmissions,
Rolls-Royce plc.,
Derby DE24 8BJ, UK
e-mail: michael.pekris@rolls-royce.com
Rolls-Royce plc.,
Derby DE24 8BJ, UK
e-mail: michael.pekris@rolls-royce.com
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Gervas Franceschini,
Gervas Franceschini
Structures & Transmissions,
Rolls-Royce plc.,
Derby DE24 8BJ, UK
e-mail: gervas.franceschini@rolls-royce.com
Rolls-Royce plc.,
Derby DE24 8BJ, UK
e-mail: gervas.franceschini@rolls-royce.com
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Ingo H. J. Jahn,
Ingo H. J. Jahn
School of Mechanical and Mining Engineering,
University of Queensland,
Brisbane, QLD 4072, Australia
e-mail: i.jahn@uq.edu.au
University of Queensland,
Brisbane, QLD 4072, Australia
e-mail: i.jahn@uq.edu.au
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David R. H. Gillespie
David R. H. Gillespie
Department of Engineering Science,
University of Oxford,
Oxford OX1 3PJ, UK
e-mail: david.gillespie@eng.ox.ac.uk
University of Oxford,
Oxford OX1 3PJ, UK
e-mail: david.gillespie@eng.ox.ac.uk
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Michael J. Pekris
Structures & Transmissions,
Rolls-Royce plc.,
Derby DE24 8BJ, UK
e-mail: michael.pekris@rolls-royce.com
Rolls-Royce plc.,
Derby DE24 8BJ, UK
e-mail: michael.pekris@rolls-royce.com
Gervas Franceschini
Structures & Transmissions,
Rolls-Royce plc.,
Derby DE24 8BJ, UK
e-mail: gervas.franceschini@rolls-royce.com
Rolls-Royce plc.,
Derby DE24 8BJ, UK
e-mail: gervas.franceschini@rolls-royce.com
Ingo H. J. Jahn
School of Mechanical and Mining Engineering,
University of Queensland,
Brisbane, QLD 4072, Australia
e-mail: i.jahn@uq.edu.au
University of Queensland,
Brisbane, QLD 4072, Australia
e-mail: i.jahn@uq.edu.au
David R. H. Gillespie
Department of Engineering Science,
University of Oxford,
Oxford OX1 3PJ, UK
e-mail: david.gillespie@eng.ox.ac.uk
University of Oxford,
Oxford OX1 3PJ, UK
e-mail: david.gillespie@eng.ox.ac.uk
1Corresponding author.
Contributed by the Structures and Dynamics Committee of ASME for publication in the JOURNAL OF ENGINEERING FOR GAS TURBINES AND POWER. Manuscript received September 14, 2015; final manuscript received October 1, 2015; published online December 4, 2015. Editor: David Wisler.
J. Eng. Gas Turbines Power. Jul 2016, 138(7): 072502 (9 pages)
Published Online: December 4, 2015
Article history
Received:
September 14, 2015
Revised:
October 1, 2015
Citation
Pekris, M. J., Franceschini, G., Jahn, I. H. J., and Gillespie, D. R. H. (December 4, 2015). "Experimental Investigation of a Leaf Seal Prototype at Engine-Representative Speeds and Pressures." ASME. J. Eng. Gas Turbines Power. July 2016; 138(7): 072502. https://doi.org/10.1115/1.4031875
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