• Title/Summary/Keyword: 디지털풍동

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A Study on the Development for the Airfoil of Wind Turbine Blade using Digital Wind Tunnel (디지털 풍동을 활용한 풍력 발전기 날개 단면 형상 개발에 관한 연구)

  • Kang, Deok Hun;Woo, Young-Jin;Lee, Jang Ho
    • The KSFM Journal of Fluid Machinery
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    • v.15 no.5
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    • pp.42-47
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    • 2012
  • Newly updated wing shape to apply small vertical wind turbine is tested with digital wind tunnel in this study. Digital wind tunnel is designed to reduce length of wind tunnel and also to maximize its area of test section. Same DC fans of ninety six are installed in the end side of its rectangular duct and air can be blown out to the other side to have uniform flow with same electricity power. New wing is concluded using experimental plan and analysis with 4-parameters and 3-levels, and tested with digital wind tunnel. It shows better performance in lift to drag ratio, and can applied to the wind turbine for the higher torque and lower thrust.

Airfoil Testing to Obtain Full-range Aerodynamic Characteristics based on Velocity Field Measurements Utilizing a Digital Wind Tunnel (익형의 전 범위 받음각에서 공력특성 시험이 가능한 디지털 풍동의 개발 및 속도장 측정)

  • Kang, Sangkyun;Kim, Jin-Ok;Kim, Yong-Su;Shin, Won-Sik;Lee, Sang-Il;Lee, Jang-Ho
    • New & Renewable Energy
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    • v.18 no.3
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    • pp.60-71
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    • 2022
  • A wind tunnel provides artificial airflow around a model throughout the test section for investigating aerodynamic loads. It has various applications, which include demonstration of aerodynamic loads in the building, automobile, wind energy, and aircraft industries. However, owing to the high equipment costs and space-requirements of wind tunnels, it is challenging for numerous studies to utilize a wind tunnel. Therefore, a digital wind tunnel can be utilized as an alternative for experimental research because it occupies a significantly smaller space and is easily operable. In this study, we performed airfoil testing based on velocity field measurements utilizing a digital wind tunnel. This wind tunnel can potentially be utilized to test the full-range aerodynamic characteristics of airfoils.

Performance Evaluation of Measuring Instrument for Infra-Red Signature Suppression System Model Test (적외선 신호저감 장치 모형시험을 위한 계측기의 성능평가)

  • SeokTae Yoon
    • Journal of Korea Society of Industrial Information Systems
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    • v.28 no.6
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    • pp.21-27
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    • 2023
  • Modern naval ships install an Infra-Red Signature Suppression system (IRSS) in their exhaust pipe to reduce infrared signature emitted to the outside. In addition, naval ships are strategic assets with a very long life cycle, so high reliability of the performance of the equipment on board must be guaranteed. Therefore, equipment such as IRSS is evaluated for performance through model testing at the design stage. A variety of measuring instruments are used in IRSS model testing, and the reliability of these instruments must also be guaranteed. In this paper, a study was conducted to evaluate the reliability of measurement equipment used in IRSS model testing. The test equipment and instruments used were a hot gas wind tunnel, pitot tube, digital differential pressure gauge, thermocouple sensor, and digital recorder. As the fan speed of the hot gas wind tunnel increased, the measurement deviation of the flow decreased, and the temperature output of the thermocouple sensor showed differences in response time and stability depending on the method used.

Aerodynamic Characteristics of the Original Airfoil KA2 for the Application of Wind Turbine Blade (풍력 블레이드 적용을 위한 고유익형 KA2의 공력특성)

  • Woo, Young-Jin;Kang, Deok-Hun;Lee, Jang-Ho
    • Journal of Wind Energy
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    • v.5 no.1
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    • pp.33-42
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    • 2014
  • The new aerofoil, KA2 was designed to apply to the wind turbine blade. For the aerofoil, numerical analysis was performed to review aerodynamic characteristics like lift and drag coefficient. And they are verified with test data using the digital wind tunnel and test samples from 3D printer. The digital wind tunnel was developed to test wing in the small laboratory, and verified with test of NACA0012 airfoil. KA2 aerofoil is asymmetric, and has the thickness ratio of 14%, and 12 degree of AOA at the maximum lift coefficient of 1.3. In this paper, aerodynamic characteristics from numerical and test approaches will be proposed with AOA in detail. Therefore, this aerofoil will be used for the design of wind turbine blade.