Numerical Study of Active Flow Control for a Transitional Highly Loaded Low-Pressure Turbine

Rizzetta, Donald P.; Visbal, Miguel R.

doi:10.1115/1.2238877

Journal of Fluids Engineering

2006

DOI: 10.1115/1.2238877

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Numerical Study of Active Flow Control for a Transitional Highly Loaded Low-Pressure Turbine

Donald P. Rizzetta

Miguel R. Visbal

Abstract: Active control was simulated numerically for the subsonic flow through a highly loaded low-pressure turbine. The configuration approximated cascade experiments that were conducted to investigate a reduction in turbine stage blade count, which can decrease both weight and mechanical complexity. At a nominal Reynolds number of 25,000 based upon axial chord and inlet conditions, massive separation occurred on the suction surface of each blade due to uncovered turning. Vortex generating jets were then used to help… Show more

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Cited by 25 publications

References 58 publications

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Computational investigation of blade slotting on a high-load low-pressure turbine profile at various reynolds numbers: Part II—Optimization of slotting position

Zhu

Zhou

et al. 2011

J. Therm. Sci.

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The concept of using blade slotting to suppress the large boundary layer separation of high aerodynamic loading low pressure turbine profile has been developed in Part 1. Calculated results highlight the inability performance accompanied with un-proper blade slotting at high Reynolds number, blade slotting optimization seems like compulsory. Meanwhile, to further dignify the rational for use of blade slotting, slotting position and its geometry needed to be optimized. Comparison of different slotting scheme calculation results promised that blade slotting parameter like outlet angle and outlet position are the most important parameters which must be investigated to satisfy the design purpose.

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Computational investigation of blade slotting on a high-load low-pressure turbine profile at various reynolds numbers: Part II—Optimization of slotting position

Zhu

Zhou

et al. 2011

J. Therm. Sci.

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Turbine blade boundary layer separation suppression via synthetic jet: An experimental and numerical study

et al. 2012

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The present paper focuses on the analysis of a synthetic jet device (with a zero net massflow rate) on a separated boundary layer. Separation has been obtained on a flat plate installed within a converging-diverging test section specifically designed to attain a local velocity distribution typical of a high-lift LPT blade. Both experimental and numerical investigations have been carried out. Unsteady RANS results have been compared with experiments in terms of time-averaged velocity and turbulence intensity distributions. Two different Reynolds number cases have been investigated, namely Re = 200, 000 and Re = 70, 000, which characterize low-pressure turbine operating conditions during take-off/landing and cruise. A range of synthetic jet aerodynamic parameters (Strouhal number and blowing ratio) has been tested in order to analyze the features of control — separated boundary layer interaction for the aforementioned Reynolds numbers

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Numerical investigation on the biomimetic trailing edge of a high-subsonic turbine blade

Luo

Wen

Wang

et al. 2019

Aerospace Science and Technology

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Numerical Study of Active Flow Control for a Transitional Highly Loaded Low-Pressure Turbine

Cited by 25 publications

References 58 publications

Computational investigation of blade slotting on a high-load low-pressure turbine profile at various reynolds numbers: Part II—Optimization of slotting position

Computational investigation of blade slotting on a high-load low-pressure turbine profile at various reynolds numbers: Part II—Optimization of slotting position

Turbine blade boundary layer separation suppression via synthetic jet: An experimental and numerical study

Numerical investigation on the biomimetic trailing edge of a high-subsonic turbine blade

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