Mannfred Horsman scite author profile

Mannfred Horsman

2Publications

17Citation Statements Received

5Citation Statements Given

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Affiliations

Rolls-Royce (Germany)

Publications

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The Application of Ultra High Lift Blading in the BR715 LP Turbine

Haselbach

Schiffer

Horsman

et al. 2001

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The original LP turbine of the BR715 engine featured “High Lift” blading, which achieved a 20-percent reduction in aerofoil numbers compared to blading with conventional levels of lift, reported in Cobley et al. (1997). This paper describes the design and test of a re-bladed LP turbine with new “Ultra High Lift” aerofoils, achieving a further reduction of approximately 11 percent in aerofoil count and significant reductions in turbine weight. The design is based on the successful cascade experiments of Howell et al. (2000) and Brunner et al. (2000). Unsteady wake-boundary layer interaction on these low-Reynolds-number aerofoils is of particular importance in their successful application. Test results show the LP turbine performance to be in line with expectation. Measured aerofoil pressure distributions are presented and compared with the design intent. Changes in the turbine characteristics relative to the original design are interpreted by making reference to the detailed differences in the two aerofoil design styles.

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The Application of Ultra High Lift Blading in the BR715 LP Turbine

Haselbach

Schiffer

Horsman

et al. 2001

View full text Add to dashboard Cite

The original LP turbine of the BR715 engine featured "High Lift" blading, which achieved a 20% reduction in aerofoil numbers compared to blading with conventional levels of lift -reported in Cobley et al. (1997). This paper describes the design and test of a re-bladed LP turbine with new "Ultra High Lift" aerofoils, achieving a further reduction of approximately 11% in aerofoil count and significant reductions in turbine weight. The design is based on the successful cascade experiments of Howell et al. (2000) and Brunner et al. (2000). Unsteady wake -boundary layer interaction on these low Reynolds number aerofoils is of particular importance in their successful application. Test results show the LP turbine performance to be in line with expectation. Measured aerofoil pressure distributions are presented and compared with the design intent. Changes in the turbine characteristics relative to the original design are interpreted by making reference to the detailed differences in the two aerofoil design styles. Abbreviations BLboundary layer HL High Lift Mn Mach-number Re Reynolds-number Sr Strouhal-number Sr=f*l/Cax UHL Ultra High Lift Downloaded From: http://proceedings.asmedigitalcollection.asme.org/ on 06/16/2015 Terms of Use: http://asme.org/terms

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