High-pressure ratio centrifugal compressors require advanced diffusion systems to achieve enhanced efficiencies set by future turbocharger applications. To address the shortcomings of the commonly used channel diffuser and airfoil cascade design perspectives, a streamtube based area schedule is adopted paying special attention to the diffuser entry region. It is shown that the diffusion in the semivaneless space, controlled chiefly by inlet flow angle and the vane suction side geometry, plays a key role in improving diffuser performance. Removing excess thickness from the suction side eliminates flow overspeed, increases effective diffusion length, and leads to higher pressure recovery at reduced stagnation pressure loss. The pressure side thickness distribution controls the channel area schedule. Thin leading edges (LEs) ensure smooth flow area transition into the channel and reduce the vane upstream influence, mitigating high-cycle fatigue related mechanical issues.
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January 2017
Research-Article
Area Schedule Based Design of High-Pressure Recovery Radial Diffusion Systems
Ruhou Gao,
Ruhou Gao
Gas Turbine Laboratory,
Massachusetts Institute of Technology,
Cambridge, MA 02139
e-mail: ruhou@mit.edu
Massachusetts Institute of Technology,
Cambridge, MA 02139
e-mail: ruhou@mit.edu
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Zoltán Spakovszky,
Zoltán Spakovszky
Fellow ASME
Gas Turbine Laboratory,
Massachusetts Institute of Technology,
Cambridge, MA 02139
e-mail: zolti@mit.edu
Gas Turbine Laboratory,
Massachusetts Institute of Technology,
Cambridge, MA 02139
e-mail: zolti@mit.edu
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Daniel Rusch,
Daniel Rusch
Compressor Development,
ABB Turbo Systems, Ltd.,
Baden 5400, Switzerland
e-mail: daniel.rusch@ch.abb.com
ABB Turbo Systems, Ltd.,
Baden 5400, Switzerland
e-mail: daniel.rusch@ch.abb.com
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René Hunziker
René Hunziker
Compressor Development,
ABB Turbo Systems, Ltd.,
Baden 5400, Switzerland
e-mail: rene.hunziker@ch.abb.com
ABB Turbo Systems, Ltd.,
Baden 5400, Switzerland
e-mail: rene.hunziker@ch.abb.com
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Ruhou Gao
Gas Turbine Laboratory,
Massachusetts Institute of Technology,
Cambridge, MA 02139
e-mail: ruhou@mit.edu
Massachusetts Institute of Technology,
Cambridge, MA 02139
e-mail: ruhou@mit.edu
Zoltán Spakovszky
Fellow ASME
Gas Turbine Laboratory,
Massachusetts Institute of Technology,
Cambridge, MA 02139
e-mail: zolti@mit.edu
Gas Turbine Laboratory,
Massachusetts Institute of Technology,
Cambridge, MA 02139
e-mail: zolti@mit.edu
Daniel Rusch
Compressor Development,
ABB Turbo Systems, Ltd.,
Baden 5400, Switzerland
e-mail: daniel.rusch@ch.abb.com
ABB Turbo Systems, Ltd.,
Baden 5400, Switzerland
e-mail: daniel.rusch@ch.abb.com
René Hunziker
Compressor Development,
ABB Turbo Systems, Ltd.,
Baden 5400, Switzerland
e-mail: rene.hunziker@ch.abb.com
ABB Turbo Systems, Ltd.,
Baden 5400, Switzerland
e-mail: rene.hunziker@ch.abb.com
1Corresponding author.
Contributed by the International Gas Turbine Institute (IGTI) of ASME for publication in the JOURNAL OF TURBOMACHINERY. Manuscript received August 1, 2016; final manuscript received August 9, 2016; published online September 27, 2016. Editor: Kenneth Hall.
J. Turbomach. Jan 2017, 139(1): 011012 (9 pages)
Published Online: September 27, 2016
Article history
Received:
August 1, 2016
Revised:
August 9, 2016
Citation
Gao, R., Spakovszky, Z., Rusch, D., and Hunziker, R. (September 27, 2016). "Area Schedule Based Design of High-Pressure Recovery Radial Diffusion Systems." ASME. J. Turbomach. January 2017; 139(1): 011012. https://doi.org/10.1115/1.4034488
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