MW급 풍력터빈의 피치 구동기의 시간지연과 출력응답에 관한 연구

@article{ART002702307},
author={ 임채욱 },
title={MW급 풍력터빈의 피치 구동기의 시간지연과 출력응답에 관한 연구},
journal={풍력에너지저널},
issn={2093-5099},
year={2021},
volume={12},
number={1},
pages={5-11},
doi={10.33519/kwea.2021.12.1.001},
url={http://dx.doi.org/10.33519/kwea.2021.12.1.001}

TY - JOUR
AU - 임채욱
TI - MW급 풍력터빈의 피치 구동기의 시간지연과 출력응답에 관한 연구
T2 - 풍력에너지저널
PY - 2021
VL - 12
IS - 1
PB - 한국풍력에너지학회
SP - 5-11
SN - 2093-5099
AB - The control method of variable speed and pitch has been adopted for most recent MW wind turbines. In the variable pitch system, the pitch angle is adjusted to maintain the rated power when the wind speed is higher than rated. The pitch system consists of a pitch controller and pitch actuator. When the pitch angle operates in the pitch actuator, a time delay typically occurs because of the existence of Coulomb friction. In previous research, it was recommended to set about 15 rad/s for the bandwidth of the pitch actuator in terms of output power response when the time delay is not considered. In this paper, we carried out numerical simulations with a turbulence wind speed for a 2 MW wind turbine considering the time delay of the pitch actuator. It is recommended to set about 60 rad/s for the bandwidth of the pitch controller, as this is appropriate when all things such as mean output power, standard deviation of output power, mean rotor speed, standard deviation of rotor speed, and rotor overspeed are considered.
KW - 대역폭, 출력, 피치 구동기, 로터 속도, 시간지연, 풍력터빈
DO - 10.33519/kwea.2021.12.1.001
UR - http://dx.doi.org/10.33519/kwea.2021.12.1.001
ER -

임채욱 (2021). MW급 풍력터빈의 피치 구동기의 시간지연과 출력응답에 관한 연구. 풍력에너지저널, 12( 1), 5- 11.

임채욱 . 2021, “MW급 풍력터빈의 피치 구동기의 시간지연과 출력응답에 관한 연구”, 풍력에너지저널, vol. 12, no. 1, pp. 5-11. Available from: doi:10.33519/kwea.2021.12.1.001

임채욱 “MW급 풍력터빈의 피치 구동기의 시간지연과 출력응답에 관한 연구” 풍력에너지저널 12.1 pp. 5-11 (2021): 5.

임채욱 . MW급 풍력터빈의 피치 구동기의 시간지연과 출력응답에 관한 연구 풍력에너지저널 [Internet]. 2021; 12( 1), : 5-11. Available from: doi:10.33519/kwea.2021.12.1.001

임채욱 . “MW급 풍력터빈의 피치 구동기의 시간지연과 출력응답에 관한 연구” 풍력에너지저널 12, no.1 (2021): 5-11. doi: 10.33519/kwea.2021.12.1.001

홈 권호 목록 논문 목록 논문 상세

MW급 풍력터빈의 피치 구동기의 시간지연과 출력응답에 관한 연구

풍력에너지저널

약어 : -

2021, vol.12, no.1, pp.5 - 11

DOI : 10.33519/kwea.2021.12.1.001

발행기관 : 한국풍력에너지학회

연구분야 : 기타공학

임채욱¹

¹한밭대학교

인용한 논문 수 : - 서지 간략 보기

초록

The control method of variable speed and pitch has been adopted for most recent MW wind turbines. In the variable pitch system, the pitch angle is adjusted to maintain the rated power when the wind speed is higher than rated. The pitch system consists of a pitch controller and pitch actuator. When the pitch angle operates in the pitch actuator, a time delay typically occurs because of the existence of Coulomb friction. In previous research, it was recommended to set about 15 rad/s for the bandwidth of the pitch actuator in terms of output power response when the time delay is not considered. In this paper, we carried out numerical simulations with a turbulence wind speed for a 2 MW wind turbine considering the time delay of the pitch actuator. It is recommended to set about 60 rad/s for the bandwidth of the pitch controller, as this is appropriate when all things such as mean output power, standard deviation of output power, mean rotor speed, standard deviation of rotor speed, and rotor overspeed are considered.

키워드

대역폭, 출력, 피치 구동기, 로터 속도, 시간지연, 풍력터빈

참고문헌(14)

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[단행본] Bianchi, F. D. / 2007 / Wind Turbine Control Systems: Principles, Modelling and Gain Scheduling Design / Springer-Verlag
[기타] Nam, Y. S / 2009 / Wind Turbine Control / GSIntervision
[학위논문] Cho, J. H / 2012 / The Effects of Torque Schedule and Pitch Loop Bandwidth Change on the Performance & Mechanical Load of MW Wind Turbine
[학술지] 임채욱 / 2017 / 피치 구동기의 대역폭과 MW급 풍력발전기의 출력 파워 응답 고찰 / 풍력에너지저널 8 (2) : 31 ~ 38
[학술지] 임채욱 / 2017 / MW급 풍력터빈의 피치 구동기의 대역폭에 관한 연구 / 신재생에너지 13 (4) : 4 ~ 12
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[기타] / 2005 / IEC 61400-1, Wind Turbines –Part 1: Design Requirements
[보고서] Hansen, M. H / 2005 / Control Design for a Pitch-regulated, Variable speed Wind Turbine
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[학술지] 김철진 / 2018 / 피치 루프 개별 게인 스케줄링 기법을 통한 타워 하중 저감 제어 / 풍력에너지저널 9 (3) : 25 ~ 32
[보고서] Jonkman, J / 2009 / Definition of a 5MW Reference Wind Turbine for Offshore System Development
[기타] Bossanyi, E. A / 2009 / GH Bladed Version 3.82User Manual