이중 다류관 모델을 적용한 수직축 풍력발전기 공력해석코드 개발 및 검증

@article{ART002629212},
author={ 이혜빈 and 써니 쿠마르 포구루리 and 배윤혁 },
title={이중 다류관 모델을 적용한 수직축 풍력발전기 공력해석코드 개발 및 검증},
journal={풍력에너지저널},
issn={2093-5099},
year={2020},
volume={11},
number={3},
pages={5-12},
doi={10.33519/kwea.2020.11.3.001},
url={http://dx.doi.org/10.33519/kwea.2020.11.3.001}

TY - JOUR
AU - 이혜빈
AU - 써니 쿠마르 포구루리
AU - 배윤혁
TI - 이중 다류관 모델을 적용한 수직축 풍력발전기 공력해석코드 개발 및 검증
T2 - 풍력에너지저널
PY - 2020
VL - 11
IS - 3
PB - 한국풍력에너지학회
SP - 5-12
SN - 2093-5099
AB - This research developed an aerodynamic analysis code for a vertical-axis wind turbine (VAWT) based on the structure of AeroDyn ver. 15, developed by the NREL. The aerodynamic analysis code used the double multiple streamtube model (DMSM) to describe aerodynamic characteristics, anticipating more accurate results and faster computation time. Tip-loss correction was adopted to increase the accuracy of the results. Validation was carried out by comparing the results from the developed code to the experimental and CFD analysis results. For the validation of aerodynamic characteristics computed by the developed code, power coefficient curves and rotor torque curves were chosen. The power coefficient curve predicted by the developed code showed good agreement with the experimental and CFD results. In the case of rotor torque, the developed code gave reasonable results compared to the CFD results. The differences in rotor torque were due to the secondary effects of the VAWT aerodynamics. Consequently, it was found that the developed aerodynamic analysis code can be used for the preliminary design of the VAWT, which requires fast and reasonable prediction.
KW - 수직축 풍력발전기, 공력해석, 이중 다류관 모델, 날개 끝 손실 보정
DO - 10.33519/kwea.2020.11.3.001
UR - http://dx.doi.org/10.33519/kwea.2020.11.3.001
ER -

이혜빈 , 써니 쿠마르 포구루리 and 배윤혁 (2020). 이중 다류관 모델을 적용한 수직축 풍력발전기 공력해석코드 개발 및 검증. 풍력에너지저널, 11( 3), 5- 12.

이혜빈 , 써니 쿠마르 포구루리 and 배윤혁 . 2020, “이중 다류관 모델을 적용한 수직축 풍력발전기 공력해석코드 개발 및 검증”, 풍력에너지저널, vol. 11, no. 3, pp. 5-12. Available from: doi:10.33519/kwea.2020.11.3.001

이혜빈 써니 쿠마르 포구루리 et al. 배윤혁 “이중 다류관 모델을 적용한 수직축 풍력발전기 공력해석코드 개발 및 검증” 풍력에너지저널 11.3 pp. 5-12 (2020): 5.

이혜빈 , 써니 쿠마르 포구루리 , 배윤혁 . 이중 다류관 모델을 적용한 수직축 풍력발전기 공력해석코드 개발 및 검증 풍력에너지저널 [Internet]. 2020; 11( 3), : 5-12. Available from: doi:10.33519/kwea.2020.11.3.001

이혜빈 , 써니 쿠마르 포구루리 and 배윤혁 . “이중 다류관 모델을 적용한 수직축 풍력발전기 공력해석코드 개발 및 검증” 풍력에너지저널 11, no.3 (2020): 5-12. doi: 10.33519/kwea.2020.11.3.001

홈 권호 목록 논문 목록 논문 상세

이중 다류관 모델을 적용한 수직축 풍력발전기 공력해석코드 개발 및 검증

풍력에너지저널

약어 : -

2020, vol.11, no.3, pp.5 - 12

DOI : 10.33519/kwea.2020.11.3.001

발행기관 : 한국풍력에너지학회

연구분야 : 기타공학

이혜빈¹ , 써니 쿠마르 포구루리² , 배윤혁³

¹제주대학교

²제주대학교

³제주대학교

인용한 논문 수 : - 서지 간략 보기

초록

This research developed an aerodynamic analysis code for a vertical-axis wind turbine (VAWT) based on the structure of AeroDyn ver. 15, developed by the NREL. The aerodynamic analysis code used the double multiple streamtube model (DMSM) to describe aerodynamic characteristics, anticipating more accurate results and faster computation time. Tip-loss correction was adopted to increase the accuracy of the results. Validation was carried out by comparing the results from the developed code to the experimental and CFD analysis results. For the validation of aerodynamic characteristics computed by the developed code, power coefficient curves and rotor torque curves were chosen. The power coefficient curve predicted by the developed code showed good agreement with the experimental and CFD results. In the case of rotor torque, the developed code gave reasonable results compared to the CFD results. The differences in rotor torque were due to the secondary effects of the VAWT aerodynamics. Consequently, it was found that the developed aerodynamic analysis code can be used for the preliminary design of the VAWT, which requires fast and reasonable prediction.

키워드

수직축 풍력발전기, 공력해석, 이중 다류관 모델, 날개 끝 손실 보정

참고문헌(14)

[학술대회] Paraschivoiu, I. / 1981 / Double-multiple Streamtube Model for Darrieus Wind Turbines / Second DOE/NASA wind turbines dynmaics workshop
[학술지] Marten, D. / 2008 / QBlade: An Open Source Tool for Design and Simulation of Horizontal and Vertical Axis Wind Turbines / International Journal of Emerging Technology and Advanced Engineering 3 : 264 ~ 269
[보고서] Vallverdú, D. / 2014 / Study on Vertical-Axis Wind Turbines using Streamtube and Dynamic Stall Models
[학술지] 이혜빈 / 2019 / AeroDyn을 활용한 수직축 풍력발전기의 공력해석코드 개발 및 검증 / 풍력에너지저널 10 (1) : 48 ~ 54
[학술지] Willmer, A. C. / 1979 / Aerodynamic Investigation into the Feasibility of a 25 m Vertical-Axis Windmill / Aero report 124
[인터넷자료] NREL / AeroDyn Users Guide and Theory Manual
[학술지] Lei, H. / 2017 / Three-dimensional Improved Delayed Detached Eddy Simulation of a two-bladed vertical axis wind turbine / Energy Conversion and Management 133 : 235 ~ 248
[학술지] Shur, M. L. / 2008 / A hybrid RANS-LES approach with delayed-DES and wall-modelled LES capabilities / International Journal of Heat Fluid Flow 29 (6) : 1638 ~ 1649
[학술대회] Poguluri, S. K. / 2019 / Three-Dimensional Computational Aspects of Vertical Axis Wind Turbine Based on Aerodynamic Performance / 9th Asia-Pacific Forum on Renewable Energy
[학술지] Ghasemian, M. / 2015 / Aerodynamic noise prediction of a horizontal axis wind turbine using Improved Delayed Detached Eddy Simulation and acoustic analogy / Energy Conversion and Management 99 : 210 ~ 220
[단행본] Paraschivoiu, I. / 2002 / WIND TURBINE DESIGN : with Emphasis on Darrieus Concept / Presses inter Polytechnique
[학술지] Islam, M. / 2008 / Aerodynamic Models for Darrieus-type Straight-bladed Vertical Axis Wind Turbines / Renewable and Sustainable Energy Review 12 (4) : 1087 ~ 1109
[학술지] Saber, E. / 2018 / Performance of SB-VAWT using a modified double multiple streamtube model / Alexandria Engineering Journal 57 (4) : 3099 ~ 3110
[학위논문] Mehrpooya, P. / 2014 / Improvement of verticalaxis wind turbine performance via turbine coupling