• Title/Summary/Keyword: Aerodynamic inlet plane

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A Parametric Study for the Design of Flush inlet (Flush 흡입관 설계를 위한 매개변수 연구)

  • Lee J. G.;Jung S. Y.;Ahn C. S.
    • 한국전산유체공학회:학술대회논문집
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    • 2004.03a
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    • pp.132-138
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    • 2004
  • Flush inlet, which has been chosen for modem air vehicles to take advantage of structure compactness and small RCS, gives rise to some aerodynamic problems such as flow separation and distortion due to vortices which deteriorate the performance of both inlet and engine. In this study, pressure recoveries at inlet exit plane were evaluated through numerical analyses of 3D turbulent flow for various inlet shapes and flight conditions. Inlet shape was controlled by changing ramp angle and width of throat, and effects of mass flow rate and angle of attack were investigated.

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Numerical Investigation on Multi-stage Axial Fan and Compressor for Considering Pressure Losses by Instrumentation and Area-averaged Properties (측정장치 압력손실과 면적평균 물리량 보정을 위한 다단 축류 팬과 압축기의 수치해석적 연구)

  • CHOI, JAEHO;KIM, SEMI;LEE, WONSUK;CHOI, TAEWOO;KIM, JINWOOK
    • Journal of Hydrogen and New Energy
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    • v.29 no.4
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    • pp.401-409
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    • 2018
  • A numerical investigation has been conducted to find the effects of pressure losses by struts and rakes, and averaging methods on the performance of a multi-stage axial fan and a multi-stage axial compressor. Struts and rakes which produce pressure losses are installed upstream of the aerodynamic inlet plane in the fan and the compressor rigs. Some of normal stator vanes are substituted with thick vanes with total pressure probes to measure total pressure between stages. Three-dimensional Reynolds-averaged Navier- Stokes equations with $k-{\omega}$ SST turbulence model were applied to analyze the pressure losses by the struts, inlet rakes, and thick instrumented vanes. The hexahedral grids were used to construct computational domain. Inlet pressure losses were evaluated for the compressor as a function of Mach number. The passage pressure losses due to the instrumented vanes were evaluated at the two speed lines in the fan. Total properties, such as pressure and temperature, were evaluated at the exit of the fan and the compressor with two different averaging methods which are area-averaging and mass-averaging, respectively.

Aerodynamic Design of Slim and High-efficient Turbo-Fan (박판형 고효율 터보홴의 공력학적 설계)

  • Lee, Myeong-Jae;Kim, Nam-Uk;Park, Duck-Jun;Cho, In-Soo;Lee, Seung-Bae
    • Proceedings of the KSME Conference
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    • 2008.11b
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    • pp.2600-2605
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    • 2008
  • Turbo-fans for a FFU unit should be aerodynamically designed to provide the FFU system with the given flow-rate at the lowest rotational-speed by considering the interaction effect with the FFU casing. In this study, slim and highly efficient turbo-fans are designed to satisfy the given performance at the specific speed by using the hybrid-stacking method of an inducer and a 2D-bladed turbo fan. The mean-line analysis, cascade theory, and CFD technique are all together applied to control the passage areas on the meridional plane from the inlet to the exit of the blade. Furthermore, the torque control algorithm is adopted to improve the performances within the constraints by the motor rpm-torque characteristics, and the resulting measured performances of mock-up fans are discussed.

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Design Study of Engine Inlet Duct for Measurement Improvement of the Flow Properties on AIP (AIP면 유동측정 정확도 향상을 위한 가스터빈엔진 입구덕트 설계 연구)

  • Im, Ju Hyun;Kim, Sung Don;Kim, Yong Ryeon
    • Journal of the Korean Society of Propulsion Engineers
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    • v.21 no.3
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    • pp.49-55
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    • 2017
  • In this study, gas turbine engine inlet duct was designed to satisfy uniform flow at aerodynamic interface plane (AIP). Haack-series was selected as nose cone profile and duct outer radius($r_o$) was designed to satisfy to match with area change rate between the nose cone and outer duct wall by the 1-D sizing. The design object of the inlet duct wall profile which has the gradual area change rate was uniform Mach number in the core flow region and minimum boundary later thickness at the both inner nose wall and outer duct wall. The flow characteristics inside the inlet duct was evaluated using CFD. The static pressure distribution at the AIP showed uniform pattern within 0.16%. Based on Mach number profile, the boundary layer thickness was 2% of channel height. Kiel temperature rake location was decided less than 100 mm in front of nose cone where the Mach number is less than 0.1 in order to maximize the temperature probe recovery rate.