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      KCI등재 SCIE SCOPUS

      Performance Prediction for Small Horizontal Axis Wind Turbine (HAWT) by Integrated Theory and Experimental Verifications

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      https://www.riss.kr/link?id=A106504625

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      다국어 초록 (Multilingual Abstract)

      In this paper, a theoretical study on the performance of a small horizontal axis wind turbine (HAWT) is presented. This research aims to establish a reliable assessment platform for the small HAWT, upon which the design and dynamic analysis for turbin...

      In this paper, a theoretical study on the performance of a small horizontal axis wind turbine (HAWT) is presented. This research aims to establish a reliable assessment platform for the small HAWT, upon which the design and dynamic analysis for turbine blades and axial-flux permanent magnet generator can be expediently carried out. The predicted results were verified by experiments undertaken in a wind tunnel as well as in outdoor environment. By adopting the model without involving any time-consuming computer simulations, various performance curves were obtained for different designs. Graphical user interface software implementing the proposed model has been developed to facilitate the performance assessment of the complete HAWT system. As a powerful and expedient tool, the developed software helps engineers effectively design a turbine system to be compatible with operation environment.

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      참고문헌 (Reference)

      1 Fitzgerald, A. E., "lectric machinery" McGraw Hill 2003

      2 Burton, T., "Wind energy handbook" Wiley 2001

      3 Manwell, J. F., "Wind energy explained—theory, design and application" Wiley 2002

      4 Lei, T., "Using improved power electronics modeling and turbine control to improve wind turbine reliability" 30 : 1043-1051, 2015

      5 Hsiao, F. B., "The performance test of three different horizontal axis wind turbine(HAWT)blade shapes using experimental and numerical methods" 6 : 2784-2803, 2013

      6 Shirzadeh, R., "The dynamics of an off shore wind turbine in parked conditions : A comparison between simulations and measurements" 18 : 1685-1702, 2015

      7 Bai, C. J., "System integration of the horizontal-axis wind turbine : The design of turbine blades with an axial-fl ux permanent magnet generator" 7 : 7773-7793, 2014

      8 Grandi, G., "Stray capacitances of single-layer solenoid air-core inductors" 35 : 1162-1168, 1999

      9 Pratap, A., "Smoothing of wind power fluctuations for permanent magnet synchronous generator-based wind energy conversion system and fault ridethrough consideration" 43 : 271-281, 2015

      10 Wheeler, H. A., "Simple inductance formulas for radio coils" 16 : 1398-1400, 1928

      1 Fitzgerald, A. E., "lectric machinery" McGraw Hill 2003

      2 Burton, T., "Wind energy handbook" Wiley 2001

      3 Manwell, J. F., "Wind energy explained—theory, design and application" Wiley 2002

      4 Lei, T., "Using improved power electronics modeling and turbine control to improve wind turbine reliability" 30 : 1043-1051, 2015

      5 Hsiao, F. B., "The performance test of three different horizontal axis wind turbine(HAWT)blade shapes using experimental and numerical methods" 6 : 2784-2803, 2013

      6 Shirzadeh, R., "The dynamics of an off shore wind turbine in parked conditions : A comparison between simulations and measurements" 18 : 1685-1702, 2015

      7 Bai, C. J., "System integration of the horizontal-axis wind turbine : The design of turbine blades with an axial-fl ux permanent magnet generator" 7 : 7773-7793, 2014

      8 Grandi, G., "Stray capacitances of single-layer solenoid air-core inductors" 35 : 1162-1168, 1999

      9 Pratap, A., "Smoothing of wind power fluctuations for permanent magnet synchronous generator-based wind energy conversion system and fault ridethrough consideration" 43 : 271-281, 2015

      10 Wheeler, H. A., "Simple inductance formulas for radio coils" 16 : 1398-1400, 1928

      11 de Miranda, C. M., "Self-resonant frequencies of air-core single-layer solenoid coils calculated by a simple method" 97 : 57-64, 2015

      12 Mohan, N., "Power electronics converters, applications, and design" Wiley 1995

      13 Nasiri, M., "Modeling, analysis and comparison of TSR and OTC methods for MPPT and power smoothing in permanent magnet synchronous generatorbased wind turbines" 86 : 892-900, 2014

      14 Barlow, J. B., "Low-speed wind tunnel testing" Wiley-Interscience 1999

      15 Zhang, Z. Q., "Ironless permanent-magnet generators for off shore wind turbines" 50 : 1835-1846, 2014

      16 Licari, J., "Inertia response from full-power converter-based permanent magnet wind generators" 1 : 26-33, 2013

      17 Juan Garate, "Fabrication and Performance of Segmented Thermoplastic Composite Wind Turbine Blades" 한국정밀공학회 5 (5): 271-277, 2018

      18 Lee, M. -H., "Experiments and numerical simulations of the rotor-blade performance for a smallscale horizontal axis wind turbine" 149 : 17-29, 2016

      19 Huang, G. -Y., "Experimental study of the protuberance eff ect on the blade performance of a small horizontal axis wind turbine" 147 : 202-211, 2015

      20 Sirichai Tammaruckwattana, "Experimental Assessment with Wind Turbine Emulator of Variable-Speed Wind Power Generation System using Boost Chopper Circuit of Permanent Magnet Synchronous Generator" 전력전자학회 15 (15): 246-255, 2015

      21 Price, G. F., "Design and testing of a permanent magnet axial flux wind power generator" 2008

      22 김관수, "Design and Validation of Demanded Power Point Tracking Control Algorithm of Wind Turbine" 한국정밀공학회 5 (5): 387-400, 2018

      23 정대원, "Design and Performance Analysis of Coreless Axial-Flux Permanent-Magnet Generator for Small Wind Turbines" 한국자기학회 19 (19): 273-281, 2014

      24 Tian, W. L., "Computational fluid dynamics prediction of a modifi ed savonius wind turbine with novel blade shapes" 8 : 7915-7929, 2015

      25 Bai, C. J., "Computational fluid dynamics analysis of the vertical axis wind turbine blade with tubercle leading edge" 7 : 033124-, 2015

      26 Xia, B., "Comparative study of air-cored axial-fl ux permanent-magnet machines with different stator winding confi gurations" 62 : 846-856, 2015

      27 Johnson, D. E., "Basic electric circuit analysis" Wiley 1995

      28 Tudorache, T., "Analysis of a permanent magnet eddy current heater driven by a wind turbine" 15 : 53-58, 2015

      29 Kamper, M. J., "Analysis and performance of axial flux permanent-magnet machine with air-cored nonoverlapping concentrated stator windings" 44 : 1495-1504, 2008

      30 Marignetti, F., "An analytical approach to eccentricity in axial flux permanent magnet synchronous generators for wind turbines" 43 : 1039-1050, 2015

      31 Kalender, O., "A new axial flux permanent magnet synchronous alternator autonomously adapted to wind speeds" 69 : 87-94, 2015

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      학술지 이력

      학술지 이력
      연월일 이력구분 이력상세 등재구분
      2023 평가예정 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
      2020-01-01 평가 등재학술지 유지 (해외등재 학술지 평가) KCI등재
      2015-04-01 평가 SCIE 등재 (기타) KCI등재
      2008-06-23 학회명변경 영문명 : Korean Society Of Precision Engineering -> Korean Society for Precision Engineering
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      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 3.62 2.24 0
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      0 0 0 0.21
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