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风力机垂直交错对下游风力机性能的影响研究 被引量:3

Study on the Effect of Vertical Staggered Wind Turbine on the Performance of Downstream Wind Turbine
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摘要 为降低上游风力机尾流的影响、优化风场布置,在两台串联的NERL 5 MW水平轴风力机中间安装1台小型的垂直轴风力机,形成垂直交错风场。采用FLUENT软件对串联风场和垂直交错风场进行数值模拟,对比两种风场的输出功率与流动特性。同时,改变垂直轴风力机的安装位置,分析其与下游风力机的距离对垂直交错风场的影响。结果表明:当风力机串联布置且为标准间距7D(D为风轮直径)时,下游风力机受上游风力机尾流影响仍然很大,输出功率下降57.1%;串联风场中加入垂直轴风力机加快了相应垂直交错风场尾流的恢复,提高了下游风力机的输出功率;垂直交错风场中垂直轴风力机安装距离为1D~6D时,可以在上游风力机功率变化不明显的情况下提高下游风力机的输出功率;当安装距离为6D时,下游风力机提高功率最高,比串联风场增加了40.1%。 In order to decrease the influence of upstream wind turbine wake and optimize the wind farm layout, a small vertical axis wind turbine(VAWT) was installed between two NERL 5 MW horizontal axis wind turbines(HAWT) in series to form a vertical staggered wind farm(VSWF).FLUENT software was used to numerically simulate the serial wind farm and the VSWF, the output power and flow characteristics of the two kinds of wind farms were compared and analyzed.Meanwhile, the installation position of the VAWT was changed to explore the influence of distances between VAWT and the downstream HAWT on the VSWF.The results show that when the wind turbine is arranged in series and the standard distance is 7D(D is the diamater of rotor), the output power of downstream wind turbine is decreased by 57.1% due to effect of the upstream HAWT wake;the installation of VAWT in serial wind farm accelerates the wake recovery of the corresponding VSWF and improves the output power of downstream wind turbine;when the installation distance of VAWT is from 1D to 6D in VSWF, the output power of downstream wind turbine can be improved significantly under the condition that the output power of upstream wind turbine is not changed obviously;when the installation distance is 6D, the downstream wind turbine has the highest power improvement, which is 40.1% higher than that of the serial wind farm.
作者 姜洪志 张宇 陈建 李春 JIANG Hong-zhi;ZHANG Yu;CHEN Jian;LI Chun(School of Energy and Power Engineering,University of Shanghai for Science and Technology,Shanghai,China,200093)
机构地区 上海理工大学能源与动力工程学院
出处 《热能动力工程》 CAS CSCD 北大核心 2022年第5期107-114,共8页 Journal of Engineering for Thermal Energy and Power
基金 国家自然科学基金(51976131)。
关键词 水平轴风力机 垂直轴风力机 风场布置 垂直交错 尾流恢复 horizontal axis wind turbine(HAWT) vertical axis wind turbine(VAWT) layout of wind farm vertical staggered wake recovery
分类号 TK8 [动力工程及工程热物理—流体机械及工程]
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热能动力工程
2022年 第5期

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