• Title/Summary/Keyword: Tower-Cable Resonance

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Natural Frequency Analysis of the Tower-Cable System of a 6kW Wind Turbine (6kW 풍력발전기 타워-케이블계의 고유진동수 해석)

  • Kim, Seock-Hyun;Park, Mu-Yeol
    • Journal of Industrial Technology
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    • v.29 no.A
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    • pp.3-8
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    • 2009
  • Vibration characteristics of a 6kW stand alone W/T(wind turbine) system are experimentally and theoretically investigated. Vibration resonance of the tower-cable system is monitored and the data are analysed and compared with the analytical results. To predict the resonance speed of the cable supported W/T, Rayleigh-Ritz method is applied to the tower-guy cable coupled system. Parametric study on the relation of the cable tension, cable elasticity and resonance frequency is carried out. Results of the study are utilized to design the stable structure of small size wind turbines which consist of a pivoted tower and guy cables.

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Parametric Study of a Wind Turbine Tower Vibration System Supported by Guy Cables (케이블 지지된 풍력발전기 타워 진동계의 변수 분석)

  • Park, Mu-Yeol;Kim, Seock-Hyun
    • Proceedings of the Korean Society for Noise and Vibration Engineering Conference
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    • 2006.05a
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    • pp.1165-1169
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    • 2006
  • Vibration characteristics of a small stand alone W/T(wind turbine) system are experimentally and theoretically investigated. Vibration resonance of the tower-cable system is monitored and the data are analysed with the analytical results. To predict the resonance speed of the cable supported WIT. Rayleigh-Ritz method is applied to the tower-guy cable coupled system. Parametric study on the relation of the cable tension. cable elasticity and resonance frequency is carried out. Results of the study are utilized to design the stable structure of small size wind turbines which consist of a pivoted tower and guy cables.

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Vibration Analysis of a Cable Supported Wind Turbine Tower Model (케이블 지지된 풍력발전기 타워 구조 모델의 진동해석)

  • Kim, Seock-Hyun;Park, Mu-Yeol;Cui, C.X.
    • Journal of Industrial Technology
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    • v.27 no.A
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    • pp.47-53
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    • 2007
  • A theoretical model based on Rayleigh-Ritz method is proposed to predict the resonance frequency of a W/T(Wind Turbine) tower structure supported by guy cables. In order to verify the validity of the theoretical model, a reduced W/T tower system is manufactured and tested. Frequency response and mode data are determined by modal testing and finite element analysis is performed to calculate the natural frequency of the tower model. Numerical and experimental results are compared with those by the theoretical analysis. Parametric study by the theoretical model shows how the cable tension and cable elasticity influence the resonance frequency of the W/T tower structure. Finally, vibration response under various rotating speed is investigated to examine the possibility of severe resonance.

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On Installation of Bus Trunk System for Wind Tower (풍력타워용 부스닥트 포설시스템 개발)

  • Lee, Joon-Keun;Kim, Bong-Seok;Park, Seong-Hee;Ahn, Hyung-Joon;Lee, Hee-Nam
    • Proceedings of the Korean Society for Noise and Vibration Engineering Conference
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    • 2012.04a
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    • pp.330-335
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    • 2012
  • A Bus Trunk System for Wind Tower is introduced. A marine cable has been widely used in wind tower or other offshore structure. However, as the electric load capacity is getting increased, the large number of cable lines should be used to cover such a huge amount of electric capacities, which makes the installation make quite difficult due to the heavy weight and volume of the present cables. On the other hand, by using a single bus trunk system line, the power capacity amount of 16 number of cable can be delivered with significant compactness. However, unlike flexible cable, the bus trunk is relatively stiff which could arise resonance phenomenon in the operating condition of wind tower, therefore, the vibration characteristics of bus trunk should be investigated and verify its long-term reliability during the life time of the wind tower.

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Vibration Characteristics of the Tower Structures of Wind Turbine Generators (풍력발전기 타워 구조의 진동 특성)

  • Kim, Seock-Hyun
    • Proceedings of the Korean Society for Noise and Vibration Engineering Conference
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    • 2009.04a
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    • pp.49-59
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    • 2009
  • Vibrations of the tower structures of 750kW and 6kW wind turbines(WT) are investigated by measurement and analysis. Acceleration responses of the WT towers under various operation condition are monitored in real time by the remote monitoring system using LabVIEW. Using the monitoring system, resonance condition of the tower structures is diagnosed with the wind speed data within the operating speed range. To predict the tower resonance frequency, 750 kW tower is modeled as an equivalent beam with a lumped mass and Rayleigh energy method is applied. For 6 kW WT, Rayleigh-Ritz analysis is carried out on the tower-cable coupled system. Calculated tower bending frequency is in good agreement with the measured value. Using the analysis model, parametric study is available in order to prevent the severe resonance.

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Development of the Bus Duct Installation System for Wind Tower (풍력타워용 부스덕트 포설시스템 개발)

  • Rhee, Huinam;Lee, Joon Keun;Kim, Bong-Seok;Park, Seong-Hee
    • Transactions of the Korean Society for Noise and Vibration Engineering
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    • v.24 no.3
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    • pp.219-226
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    • 2014
  • A bus duct system for wind tower is introduced. A marine cable has been widely used in wind tower or various offshore structures. However, as the electric load capacity is increases, large number of cable lines must be used to cover the huge amount of electric capacities. Therefore, the installation of the cable lines becomes very difficult due to the heavy weight and volume of the cables. On the other hand, by using a single bus duct system line, the power capacity amount of 16 cables can be delivered with significantly compacted form. However, unlike flexible cables, the bus duct is relatively stiff which could generate the resonance phenomenon in the operating condition of the wind tower. In this study, the vibration characteristics of the bus duct are investigated and its long-term reliability during the life time of the wind tower is verified.

Vibration Monitoring and Analysis of a Small Stand Alone Wind Turbine Generator (소형 독립형 풍력발전기의 진동 모니터링 및 분석)

  • Kim S. H.;Yoo N. S.;Nam Y. S.;Lee J. W.
    • 한국신재생에너지학회:학술대회논문집
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    • 2005.06a
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    • pp.64-67
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    • 2005
  • A vibration monitoring system for a small size wind turbine (WIT) is established and operated. The monitoring system consists of monolithic integrated chip accelerometer for vibration monitoring, anemometers for wind data acquisition and auxiliary sensors for atmospheric data. Using the monitoring system, vibration response of a 6kW stand alone WIT generator is investigated. Acceleration data of the WIT tower under various operation condition is acquired in real time using LabVIEW and the data are remotely transferred from the test site to the laboratory in school by internet. Vibration response characteristics of the tower structure are diagnosed in the aspect of stability of W/T. Wind data and electrical power performance are also investigated with the stability problem.

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Vibration Monitoring and Power Performance Evaluation of a Small Stand-alone Wind Turbine Generator (소형 독립형 풍력발전기의 진동 모니터링 및 출력 성능 평가)

  • Yoo, N.S.;Kim, Yoon-Ho;Kim, Seock-Hyun
    • Transactions of the Korean Society for Noise and Vibration Engineering
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    • v.17 no.2 s.119
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    • pp.114-120
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    • 2007
  • Vibration performance of a 6 kW stand-alone wind turbine(W/T) generator is investigated under the wind environment of Daegwanryung mountain area. In the W/T, wind condition, power performance and structural stability are correlated each other An integrated monitoring system which consists of accelerometers, anemometers, power meters and auxiliary sensors for atmospheric data are constructed to measure the required data simultaneously. Based upon the data acquired over a long period of time, vibration performance of the W/T structure is estimated with annual wind data and generating power performance. Within the operating speed range, possibility of severe nitration is diagnosed. Vibration sources are identified and countermeasures are proposed. The goal of the study is to offer the basic information on W/T vibration performance at the design stage of a small stand alone W/T structure.