난류경계층 내의 다양한 표면조도블록의 표면압력 특성 연구

@article{ART002574971},
author={ 박권호 and 임희창 },
title={난류경계층 내의 다양한 표면조도블록의 표면압력 특성 연구},
journal={풍력에너지저널},
issn={2093-5099},
year={2020},
volume={11},
number={1},
pages={5-17},
doi={10.33519/kwea.2020.11.1.001},
url={http://dx.doi.org/10.33519/kwea.2020.11.1.001}

TY - JOUR
AU - 박권호
AU - 임희창
TI - 난류경계층 내의 다양한 표면조도블록의 표면압력 특성 연구
T2 - 풍력에너지저널
PY - 2020
VL - 11
IS - 1
PB - 한국풍력에너지학회
SP - 5-17
SN - 2093-5099
AB - As the demand for electricity keeps growing, a variety of systems to generate electricity have been developed. Among them, wind turbines are by far the best energy harvesters, and the greatest efficiency is known in Western countries. However, wind turbines are usually influenced by the geographical characteristics of their surroundings such as surface roughness, shape of terrain, etc. Therefore, it is important to find flow characteristics over a variety of roughness conditions, and depending on the variation, the design of wind turbines and even wind farms is properly made. Therefore, we aimed to study the surface pressure variation around surface roughness with changing arrangement patterns and area density. Therefore, surface pressure variation around surface roughness was made and analyzed in terms of mean and fluctuating pressure. In addition, in order to observe the flow close to surface roughness, the correlation between two different types of roughness was also obtained. As a result, there was a strong correlation between sidewalls of roughness at an area density of 25 %, a little relation at 17 %, and a little correlation at 11 %.
KW - 표면조도, 표면압력, 영역밀도, 상호상관관계
DO - 10.33519/kwea.2020.11.1.001
UR - http://dx.doi.org/10.33519/kwea.2020.11.1.001
ER -

박권호 and 임희창 (2020). 난류경계층 내의 다양한 표면조도블록의 표면압력 특성 연구. 풍력에너지저널, 11( 1), 5- 17.

박권호 and 임희창 . 2020, “난류경계층 내의 다양한 표면조도블록의 표면압력 특성 연구”, 풍력에너지저널, vol. 11, no. 1, pp. 5-17. Available from: doi:10.33519/kwea.2020.11.1.001

박권호 임희창 et al. “난류경계층 내의 다양한 표면조도블록의 표면압력 특성 연구” 풍력에너지저널 11.1 pp. 5-17 (2020): 5.

박권호 , 임희창 . 난류경계층 내의 다양한 표면조도블록의 표면압력 특성 연구 풍력에너지저널 [Internet]. 2020; 11( 1), : 5-17. Available from: doi:10.33519/kwea.2020.11.1.001

박권호 and 임희창 . “난류경계층 내의 다양한 표면조도블록의 표면압력 특성 연구” 풍력에너지저널 11, no.1 (2020): 5-17. doi: 10.33519/kwea.2020.11.1.001

홈 권호 목록 논문 목록 논문 상세

난류경계층 내의 다양한 표면조도블록의 표면압력 특성 연구

풍력에너지저널

약어 : -

2020, vol.11, no.1, pp.5 - 17

DOI : 10.33519/kwea.2020.11.1.001

발행기관 : 한국풍력에너지학회

연구분야 : 기타공학

박권호¹ , 임희창²

¹부산대학교

²부산대학교

인용한 논문 수 : - 서지 간략 보기

초록

As the demand for electricity keeps growing, a variety of systems to generate electricity have been developed. Among them, wind turbines are by far the best energy harvesters, and the greatest efficiency is known in Western countries. However, wind turbines are usually influenced by the geographical characteristics of their surroundings such as surface roughness, shape of terrain, etc. Therefore, it is important to find flow characteristics over a variety of roughness conditions, and depending on the variation, the design of wind turbines and even wind farms is properly made. Therefore, we aimed to study the surface pressure variation around surface roughness with changing arrangement patterns and area density. Therefore, surface pressure variation around surface roughness was made and analyzed in terms of mean and fluctuating pressure. In addition, in order to observe the flow close to surface roughness, the correlation between two different types of roughness was also obtained. As a result, there was a strong correlation between sidewalls of roughness at an area density of 25 %, a little relation at 17 %, and a little correlation at 11 %.

키워드

표면조도, 표면압력, 영역밀도, 상호상관관계

참고문헌(16)

[학술지] Elliott, D. L. / 1990 / Observations of wind turbine wakes and surface roughness effects on wind flow variability / Solar Energy 45 : 265 ~ 283
[학술지] Chamorro, L. P / 2009 / A wind-tunnel investigation of wind-turbine wakes : Boundary-layer turbulence effects / Boundary-Layer Meteorology 132 : 129 ~ 149
[학술지] Uchida, T. / 2017 / High-resolution LES of terrain-induced turbulence around wind turbine generators by using turbulent inflow boundary conditions / Journal of Fluid Dynamics 7 : 511 ~ 524
[학술지] Kozmar, H. / 2010 / Scale effects in wind tunnel modeling of an urban atmospheric boundary layer / Theoretical and Applied Climatology 100 : 153 ~ 162
[학술지] Kozmar, H. / 2011 / Characteristics of natural wind simulations in the TUM boundary layer wind tunnel / Theoretical and Applied Climatology 106 : 95 ~ 104
[학술지] Varshney, K. / 2011 / Experiments on integral length scale control in atmospheric boundary layer wind tunnel / Theoretical and Applied Climatology 106 : 127 ~ 137
[학술지] Castro, I. P. / 1977 / The flow around a surface mounted cube in uniform and turbulent streams / Journal of Fluid Mechanics 79 : 307 ~ 335
[학술지] Xie, Z. N. / 2005 / Mean interference effects among tall buildings / Engineering Structures 26 : 1173 ~ 1183
[학술지] Richards, P. J. / 2007 / Wind tunnel modelling of the Silsoe cube / Journal of Fluid Mechanics 95 : 1384 ~ 1399
[학술지] Coceal, O. / 2006 / Mean flow and turbulence statistics over groups of urban-like cubical obstacles / Boundary-Layer Meteorology 121 : 491 ~ 519
[학술지] Xie, Z. / 2006 / LES and RANS for turbulent flow over arrays of wall-mounted obstacles / Flow, Turbulence and Combustion 76 : 291 ~ 312
[학술지] Xie, Z. / 2008 / Large-Eddy Simulation of flow over random urban-like obstacles / Boundary-Layer Meteorology 129 : 1 ~ 23
[학술지] Cheng, H. / 2002 / Near-wall flow over urban-like roughness / Boundary-Layer Meteorology 104 : 229 ~ 259
[학술지] Lim, H. C / 2007 / Bluff bodies in deep turbulent boundary layers : Reynolds-number issues / Journal of Fluid Mechanics 571 : 97 ~ 118
[학술지] Cook, N. J. / 1978 / Wind tunnel simulation of the adiabatic atmospheric boundary layer by roughness, barrier and mixing device methods / Journal of Wind Engineering and Industrial Aerodynamics 3 : 157 ~ 176
[학술지] Jiang, G. / 2018 / Large-Eddy Simulation of flow and pollutant dispersion in a 3D urban street model located in an unstable boundary layer / Building and Environment 142 : 47 ~ 57