第 39 卷 第 6 期                 曾明伍等： 风力机叶片气动噪声的影响参数                                           931


                                                                   namic optimal design of low noise wind turbine blades[J].
                                                                   China Mechanical Engineering, 2018, 29(13): 1574–1579,
                            参 考     文   献                          1587.
                                                                [11] Brooks T F, Pope D, Marcolini M A. Airfoil self noise and
              [1] 秦 海 岩.  2018 年 风 电 产 业 实 现 高 质 量 发 展 [J]. 风 能,   prediction[C]. NASA Reference Publication, 1989.
                 2018(12): 1                                    [12] 司海青, 王同光. 风力机噪声的预测方法研究 [J]. 空气动力学
              [2] 胡昊. 风力机叶片气动噪声特性与降噪方法研究 [D]. 北京:                  学报, 2011, 29(6): 801–804.
                 华北电力大学 (北京), 2016.                                Si Haiqing, Wang Tongguang. Pediction method of aero-
              [3] Wagner S, Bareiß R, Guidati G. Wind turbine noise[M].  dynamic noise from wind turbine[J]. Acta Aerodynamica
                 Berlin, Heidelberg: Springer, 1996.               Sinica, 2011, 29(6): 801–804.
              [4] Zhu W J. Aero-acoustic computations of wind turbines[D].  [13] Lowson M V. Assessment and prediction of wind tur-
                 Copenhagen: Technical University of Denmark, 2007.  bine noise[R]. Flow Solutions Report 92/19, ETSU
              [5] Shen W Z, Michelsen J, Sorensen J. Aero-acoustic com-  W/13/00284/REP Bristol, England, 1992.
                 putations of wind turbines[C]. Asme Wind Energy Sym-  [14] Moriarty P J, Guidati G, Migliore P G. Recent improve-
                 posium, 2002.                                     ment of a semi-empirical aero-acoustic prediction code for
              [6] Zhu W J, Shen W Z. LES tests on airfoil trailing edge  wind turbines[R]. AIAA 2004–3041.
                 serration[J]. Journal of Physics Conference Series, 2016,  [15] Zhu W J, Nicolai H, Shen W Z, et al. Modeling of aerody-
                 753(2): 1–11.                                     namically generated noise from wind turbines[J]. Journal
              [7] 任旺, 李成良, 毛晓娥, 等. 基于后缘厚度变化的翼型噪声分                  of Solar Energy Engineering, 2005, 127(4): 517–528.
                 析研究 [J]. 风能, 2019(4): 116–119.                 [16] Leloudas G, Zhu W J, Sørensen J N, et al. Prediction and
              [8] 郭茂丰, 张立茹, 王占洋, 等. 基于流固耦合的风力机气动噪                  reduction of noise from a 2.3 MW wind turbine[J]. Journal
                 声影响研究 [J]. 可再生能源, 2018, 36(8): 1238–1243.         of Physics Conference Series, 2007, 75(1): 012083–012091.
                 Guo Maofeng, Zhang Liru, Wang Zhanyang, et al. Re-  [17] 柏宝红, 李晓东. 翼型湍流尾缘噪声半经验预测公式改进 [J].
                 search on aerodynamic noise of wind turbine based  北京航空航天大学学报, 2017, 43(1): 86–92.
                 on fluid-structure interaction[J]. Renewable Energy Re-  Bai Baohong, Li Xiaodong. Improvement of airfoil turbu-
                 sources, 2018, 36(8): 1238–1243.                  lent trailing-edge noise semi-empirical prediction formula-
              [9] 贺德馨. 风工程与工业空气动力学 [M]. 北京: 国防工业出版                 tion[J]. Journal of Beijing University of Aeronautics and
                 社, 2006.                                          Astronautics, 2017, 43(1): 86–92.
             [10] 汪泉, 洪星, 杨建忠, 等. 低噪声风力机叶片气动外形优化设               [18] Debertshäuser H, Shen W Z, Zhu W J. Aeroacoustic cal-
                 计 [J]. 中国机械工程, 2018, 29(13): 1574–1579, 1587.     culations of a full scale Nordtank 500 kW wind turbine[J].
                 Wang Quan, Hong Xing, Yang Jianzhong, et al. Aerody-  Journal of Physics: Conference Series, 2016, 753(2): 1–10.