• Title/Summary/Keyword: 회전중인 블레이드

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Statistical Blade Angular Velocity Information-based Wind Turbine Fault Diagnosis Monitoring System (블레이드 각속도 통계 정보 기반 풍력 발전기 고장 진단 모니터링 시스템)

  • Kim, Byoungjin;Kang, Suk-Ju;Park, Joon-Young
    • KEPCO Journal on Electric Power and Energy
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    • v.2 no.4
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    • pp.619-625
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    • 2016
  • In this paper, we propose a new fault diagnosis monitoring system using gyro sensor-based angular velocity calculation for blades of the wind turbine system. First, the proposed system generates the angular velocity dataset for the rotation speed of the normal blade. Using the dataset, we estimate and evaluate the state of blades for the wind turbine by comparing the current state with the pre-calculated normal state. In the experimental results, the angular velocity of the normal state was higher than $360^{\circ}/s$ while that of the damaged blades was lower than $360^{\circ}/s$ and the standard deviation of the angular velocity was significantly increased.

Control Algorithm for Wind Turbine Simulator with Variable Inertia Emulation (가변관성 모의 기능을 가진 풍력터빈 시뮬레이터의 제어 알고리즘)

  • 정병창;정세종;송승호
    • The Transactions of the Korean Institute of Power Electronics
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    • v.8 no.3
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    • pp.266-273
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    • 2003
  • A wind turbine simulator is developed for the emulation of variable input torque from the wind energy without actual rotor blades using motor-generator set. The torque command of dc motor is calculated from the characteristic equation of rotor blade during the change of wind speed. Especially the proposed control algorithm takes into account the fact that the moment of inertia of blade is much larger than that of driving motor. If you select the desired value of inertia, the stored/restored energy of the inertia during acceleration/deceleration can be compensated effectively resulting the only net torque is delivered to the generator. The simulator set-up has been designed and implemented using a do motor and drive. Feasibility of the proposed algorithm is verified by computer simulations and experiments.

Development and Verification of Small-Scale Rotor Hover Performance Test-stand (소형 로터 블레이드의 제자리 비행 성능 시험장치 개발 및 검증)

  • Lee, Byoung-Eon;Seo, Jin-Woo;Byun, Young-Seop;Kim, Jeong;Yee, Kwan-Jung;Kang, Beom-Soo
    • Journal of the Korean Society for Aeronautical & Space Sciences
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    • v.37 no.10
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    • pp.975-983
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    • 2009
  • This paper presents the work being carried out in order to deduce hover performance of a small-scale single rotor blade as a preliminary study of a small coaxial rotor helicopter development. As an initial research, a test stand capable of measuring thrust and torque of a small-scale rotor blade in hover state was constructed and fabricated. The test stand consists of three parts; a rotating device, a load measuring sensor and a data acquisition system. Thrust and torque were measured with varying collective pitch angle at fixed RPM. Through this research, hover performance tests were conducted for a small-scale single rotor blade operating in low Reynolds number ($Re\;{\approx}3{\times}10^5$), as well as for verifying the test stand itself for acquiring hover performance.

Analysis of Turbine Blade Damage at Ravic Power Plant, Saudi Arabia (사우디 라빅발전소 터빈 블레이드 파손 분석기술 현장 적용)

  • Park, Jun Su
    • KEPCO Journal on Electric Power and Energy
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    • v.7 no.1
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    • pp.53-58
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    • 2021
  • 한전에서 운영중인 사우디라빅발전소에서 저압터빈 블레이드가 파손되었다. 블레이드의 경우 터빈의 핵심부품으로서 증기를 활용하여 발전기를 회전시켜 전기를 생산하는데 필수 부품이다. 반복적인 사고발생을 예방하기 위해 조직분석, 운전신호 분석등을 활용하여 원인을 규명하였고, 대책을 제시하였다.

Measurement of Surface Pressure Fluctuations on a Rotating Blade Using a Digital Recording Device (Digital Recording Device를 ol용한 회전중인 블레이드 표면의 압력섭동 측정)

  • Yun, Jung-Sik;Kang, Woong;Sung, Hyung-Jin
    • Transactions of the Korean Society of Mechanical Engineers B
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    • v.29 no.10 s.241
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    • pp.1119-1129
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    • 2005
  • A new measurement system of wall pressure fluctuations on a rotating machinery, composed of digital recording device, was developed and evaluated. The small-sized digital recording device was attached on the rotating machinery and then was detached for data reduction. In order to obtain the system transfer function of the digital recording system, a dynamic calibration was performed utilizing the signal from a 1/8 inch B&K microphone as input. The time history of the unsteady pressure was then reconstructed from the output of the sensor by using this transfer function. The reconstructed pressure signals showed good agreement with the reference signal in both temporal and spectral sense. This sensor was then used to measure the wall pressure fluctuations on a rotating blade. An array of microphones were installed on the blade in the circumferential and radial directions. Various statistical moments were obtained from the measurement data set. Comparison of these quantities with the existing studies demonstrated satisfactory agreement. These tests give credence to the relevance and reliability of this device for applications in more complicated turbulent rotating machineries.

A Study on the Low Vibration Design of Paddle Type Composite Rotor Blade for Helicopter (Paddle형 복합재료 헬리콥터 로터 블레이드 저진동 설계 기술 연구)

  • Kim, Deok Gwan;Ju, Jin;Lee, Myeong Gyu;Hong, Dan Bi
    • Journal of the Korean Society for Aeronautical & Space Sciences
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    • v.31 no.4
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    • pp.99-104
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    • 2003
  • This paper described the general dynamic point for rotor design and the design procedure of low vibration blade. Generally, rotor rotating natural frequencies are determined to minimize hub loads, blade vibration and to suppress ground resonance at rotor design stage. First, through rotor frequency diagram, natural frequencies must be far away from resonance point and rotating loads generated from blade can be transformed to non-rotating load to predict fuselage vibration. Vibration level was predicted at each forward flight condition by calculating cockpit's vertical acceleration transferred from non-rotating hub load assuming a fuselage as a rigid body. This design method is applied to design current Next-generation Rotor System Blade(NRSB) and will be applied to New Rotor which will be developed Further.

An Unsteady Numerical Method of Autorotation and the Effect of 2D Aerodynamic Coefficients (자동회전의 비정상 수치해법과 2차원 공력계수의 영향)

  • Kim, Hak-Yoon;Sheen, Dong-Jin
    • Journal of the Korean Society for Aeronautical & Space Sciences
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    • v.37 no.2
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    • pp.121-130
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    • 2009
  • An unsteady numerical simulation method for an autorotating rotor in forward flight was developed. The flapping and rotational equations of motion of autorotation are continuously integrated for given time steps, meanwhile the induced velocity field at disc plane is obtained by the dynamic inflow theory embodying the unteadiness. The transitions from arbitrary initial states to equilibrium states were simulated. Steady autorotations as numerical solutions of equations were predicted by using two sources of blade airfoil data. The simulations using airfoil data which were obtained by a two dimensional Navier-Stokes solver in terms of angles of attack and Reynolds numbers have shown good agreements with wind tunnel experimental results.

Damage Analysis for Last-Stage Blade of Low-Pressure Turbine (저압터빈 최종단 블레이드 손상해석)

  • Song, Gee Wook;Choi, Woo Sung;Kim, Wanjae;Jung, Nam Gun
    • Transactions of the Korean Society of Mechanical Engineers B
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    • v.37 no.12
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    • pp.1153-1157
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    • 2013
  • A steam turbine blade is one of the core parts in a power plant. It transforms steam energy into mechanical energy. It is installed on the rim of a rotor disk. Many failure cases have been reported at the final stage blades of a low-pressure (LP) turbine that is cyclically loaded by centrifugal force because of the repeated startups of the turbine. Therefore, to ensure the safety of an LP steam turbine blade, it is necessary to investigate the fatigue strength and life. In this study, the low cycle fatigue life of an LP steam turbine blade is evaluated based on actual damage analysis. To determine the crack initiation life of the final stage of a steam turbine, Neuber's rule is applied to elastic stresses by the finite element method to calculate the true strain amplitude. It is observed that the expected life and actual number of starts/stops of the blade were well matched.

An Analysis of High Speed Impulsive Noise of Rotating Blades Using Frequency Domain Method (주파수 영역 기법을 이용한 회전익의 고속 충격소음 해석)

  • 윤태석;이수갑
    • Proceedings of the Korean Society for Noise and Vibration Engineering Conference
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    • 1996.10a
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    • pp.443-449
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    • 1996
  • 헬리콥터, 팬, 프로펠러, 터이빈같이 회전익에서 유체역학적 소음이 발생하는 장치의 설계에 있어서는 공기 역학적 성능 분석과 함께 소음에 대한 해석이 절대적으로 필요하다. 근래에 들어와서 소음에 대한 관심이 급격히 증가하고 공항 주변에서의 국제적인 규약들은 낮은 소음 수준(low noise level)을 규정하고 있으며, 이에 따라서 소음을 감소시키려는 연구가 매우 활발히 진행되고 있는 실정이다. 더욱이 컴퓨터의 냉각 팬을 비롯한 공조기기 및 산업기기에 사용되는 회전기계에서 발생되는 소음의 저감은 보다 더 쾌적한 환경을 요구하는 사회적 요구에 부합하면서 공력소음의 연구 분야가 더 넓어지고 있다. 본 논문에서는 소음예측 방법중의 하나인 음향상사(acoustic analogy)를 주파수 영역 방법(frequency domain method)을 이용하여 헬리콥터 블레이드의 고속 충격소음(High Speed Impulsive Noise)을 해석한다. 고속 충격소음은 블레이드-와류 상호작용 소음과 더불어 헬리콥터의 지배적인 소음원으로서 깃끝 속도가 큰 전진 수평비행(forward level flight)또는 제자리 비행(hovering flight)시 발생하는 소음으로 블레이드의 깃끝 마하수(critical Mach number)보다 크거나 비슷할 경우 충격파의 교란에 의해서 일어나는 충격적인 소음을 말한다. 고속 충격소음은 고주파수 스펙트럼 성분과 큰 소음강도를 가지고 있기 때문에 날카로운 금속성의 소리를 내며 먼 거리까지 전파되는 특징을 가지고 있다.

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Structural Analysis and Shape Optimization for Rotor of Turbomolecular Pump Using P-Method (P-기법을 이용한 터보분자펌프 로터의 구조해석 및 형상최적설계)

  • Won, Bo Reum;Jung, Hae Young;Han, Jeong Sam
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.37 no.10
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    • pp.1279-1289
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    • 2013
  • In recent times, turbomolecular pumps (TMPs) have been used frequently to generate and maintain high and clean vacuum. Because of the high-speed rotation of the rotor, its structural safety should be treated as the first design concern. This paper presents the structural analysis and optimization of rotor blades of a TMP. To increase the numerical efficiency in the finite element modeling and analysis, the P-method provided in Pro/ENGINEER was used for simulation. The structural responses for several types of rotor blades were investigated, and the effects of the blade angle, blade length, and round size are thoroughly studied for each type of TMP blade. In addition, structural optimization to reduce and even the maximum stress at each stage of the TMP by changing the size of rounds between the blade and the hub was performed very successfully by using the P-method.