Offshore Turbine Wake Power Losses: Is Turbine Separation Significant?

机译：海上涡轮机唤醒功率损耗：涡轮分离显着吗？

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This paper presents the results of a parametric study of wind turbine wake effects in a hypothetical offshore wind farm with varying turbine separation using a Computational Fluid Dynamics (CFD) model. Results are analyzed from a simulated 40 turbine farm with 60 layout options, 4 wind speeds and 10° directional bins. Results show that increasing turbine separation in one or both directions leads to greater power generation, though this effect diminishes for separations above 8 diameters. Similarly, turbulence intensity is shown to decrease with increases in turbine separation but with little variation beyond 8 diameters. For 3 out of 4 wind speeds when combined with a representative UK offshore wind rose the farm was shown to have an optimal layout orientation along an axis 350°-170°, though the difference in power produced between orientation angles was less than between changes in turbine separation.

机译：本文介绍了使用计算流体动力学（CFD）模型的假设海上风电场在假设的海上风电场中的风力涡轮机唤醒效应的参数研究。从模拟的40个涡轮机农场分析了60个布局选项，4个风速和10°定向箱的结果。结果表明，在一个或两个方向上增加涡轮机分离导致更大的发电，但这种效果会降低8直径以上的分离。类似地，湍流强度被示出随着涡轮分离的增加而降低，但在超过8直径超过8直径的情况下变化很小。对于3个风速，当与代表的英国海上风升起时，农场被认为是沿轴350°-170°的最佳布局取向，尽管取向角之间产生的功率差异小于变化之间的功率涡轮分离。

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《Deep Sea Offshore Wind RD Conference》|2018年|578 p.|共9页
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P. Argyle; S. J. Watson;
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中图分类风能发电;
关键词
CFD; Wind Turbine; Offshore Wind; Wakes;

机译：CFD;风力涡轮机;海上风;唤醒;
入库时间 2022-08-21 11:49:39

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1. Modeling turbine wakes and power losses within a wind farm using LES: An application to the Horns Rev offshore wind farm [J] . Wu Yu-Ting, Porte-Agel Fernando Renewable energy . 2015,第mara期

机译：使用LES对风电场中的涡轮机尾流和功率损耗进行建模：应用于Horns Rev海上风电场
2. Modelling and Measurements of Power Losses and Turbulence Intensity in Wind Turbine Wakes at Middelgrunden Offshore Wind Farm [J] . S. C. Pryor, P.-E. Rethore, H. E. Joslash, Wind Energy . 2007,第6期

机译：Middelgrunden海上风电场的风力涡轮机尾流功率损耗和湍流强度的建模与测量
3. Wake losses optimization of offshore wind farms with moveable floating wind turbines [J] . S.F. Rodrigues, R. Teixeira Pinto, M. Soleimanzadeh, Energy Conversion & Management . 2015,第jana期

机译：可移动浮动式风力发电机优化海上风电场的尾流损失
4. Offshore Turbine Wake Power Losses: Is Turbine Separation Significant? [C] . P. Argyle, S. J. Watson Deep Sea Offshore Wind RD Conference . 2018

机译：离岸涡轮唤醒功率损失：涡轮分离显着吗？
5. The effects of atmospheric and wake turbulence on wind turbines and wind turbine wakes [D] . Farr, Thomas David. 2015

机译：大气湍流和尾流湍流对风机和风机尾流的影响
6. Trailing-Edge Flap Control for Mitigating Rotor Power Fluctuations of a Large-Scale Offshore Floating Wind Turbine under the Turbulent Wind Condition [O] . Bofeng Xu, Junheng Feng, Tongguang Wang, 2018

机译：湍流风能下用于减轻大型近海浮动风力涡轮机的转子电力波动的后缘襟翼控制
7. Offshore turbine wake power losses: is turbine separation significant? [O] . Argyle, Peter, Watson, Simon J. 2017

机译：海上涡轮机唤醒功率损耗：涡轮机分离是否重要？
8. Correlation of turbine-blade-element losses based on wake momentum thickness with diffusion parameter for a series of subsonic turbine blades in two-dimensional cascade and for four transonic turbine rotors [R] . Wong, Robert Y, Stewart, Warner L 1955

机译：基于尾迹动量厚度的涡轮 - 叶片 - 单元损失与二维级联中的一系列亚音速涡轮叶片和四个跨音速涡轮转子的扩散参数的相关性

Offshore Turbine Wake Power Losses: Is Turbine Separation Significant?

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