瞬变工况风力机气动性能预测

上海交通大学学报（自然版） ›› 2013, Vol. 47 ›› Issue (03): 392-397.

瞬变工况风力机气动性能预测

沈昕，俞国华，竺晓程，杜朝辉

（上海交通大学机械与动力工程学院，上海 200240）

收稿日期:2012-03-09 出版日期:2013-03-28 发布日期:2013-03-28
基金资助:
上海市创新项目 (11CXY07)，教育部博士点基金 (20110073110031)资助项目

Aerodynamic Investigation of Wind Turbine During Pitching Motion

SHEN Xin, YU Guo-Hua, ZHU Xiao-Cheng, DU Chao-Hui

(School of Mechanical Engineering, Shanghai Jiaotong University, Shanghai 200240, China)

Received:2012-03-09 Online:2013-03-28 Published:2013-03-28

摘要/Abstract

摘要： 摘要：
用非线性非定常涡格法计算了风力机在瞬态的非定常性能.该方法由于风力机尾迹未知，故采用时间步进历程确定.以NREL Phase VI 风力机作为模型，进一步计算了该风力机在瞬态变桨距角时尾迹、功率输出、载荷等变化历程，并与实验值进行对比.结果表明，该模型可以较好地反映尾迹对叶片的诱导速度变化，载荷的快速变化以及变化至稳态结果的过程. 关键词：
风力机；动态入流；气动性能中图分类号： TK 83
文献标志码： A

Abstract: A vortex lattice method was used for the blade model for the unsteady aerodynamic prediction of wind turbine during pitching motion. In order to present the change of the shape and vorticity of the wake, a time marching free wake model was used to calculate the wake trailed for the tip of the blade. The results of the test cases were compared with the experimental data available from the NREL PHASE VI rotor experiments, indicating that the model not only corrects power levels, but also predates the transient overshoots and undershoots of the rotor during pitching motion accurately.

Key words: wind turbine, dynamic inflow, aerodynamic performance

沈昕, 俞国华, 竺晓程, 杜朝辉. 瞬变工况风力机气动性能预测[J]. 上海交通大学学报（自然版）, 2013, 47(03): 392-397.

SHEN Xin, YU Guo-Hua, ZHU Xiao-Cheng, DU Chao-Hui. Aerodynamic Investigation of Wind Turbine During Pitching Motion[J]. Journal of Shanghai Jiaotong University, 2013, 47(03): 392-397.

参考文献

［1］Andersen P B, Aagaard Madsen H, Gaunaa M. A near wake model for deformable trailing edge flaps implemented the in
multi body aeroservoelastic code HAWC2［C］∥2010 European Wind Energy Conference and Exhibition. Warsaw:［s.n.］,
2010:4449.
［2］Joglekar M，Loewy R . An actuator disc analysis of helicopter wake geometry and the corresponding blade response［R］
. USAAVLABS TR 6966, 1970.
［3］Gaonkar G H，Peters D. Review of dynamic inflow modeling for rotorcraft flight dynamics［J］. Vertica, 1988，12(3):
213242.
［4］Brown R E. Rotor wake modeling for flight dynamic simulation of helicopters［J］. AIAA Journal, 2000， 38(1):
5763.
［5］Pitt D M， Peters D A. Theoretical prediction of dynamicinflow derivatives［J］. Vertica, 1981， 5(1): 2134.
［6］Pitt D M. Rotor dynamic inflow derivatives and time constants from various inflow models［D］. Saint Louis:
Washington Univ，1980.
［7］Majhi J R, Ganguli R. Helicopter blade flapping with and without small angle assumption in the presence of dynamic
stall［J］. Applied Mathematical Modelling, 2010，34(12):37263740.
［8］Murakami Y, Houston S. Dynamic inflow modelling for autorotating rotors［J］. Aeronautical Journal, 2008，112
(1127):4753.
［9］Murakami Y, Houston S. Correction of the definition of mass flow parameter in dynamic inflow modelling［J］.
Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering，2009，223
(7):10371040.
［10］Trchalík J, Gillies E, Thomson D. Development of an aeroelastic stability boundary for a rotor in autorotation
［EB/OL］．（2008）［20110901］.
http://eprints.gla.ac.uk/4967/1/Development_of_an_aeroelastic_stability_boundary_of_a_rotor_in_autorotation.pdf.
［11］Trchalík J. Aeroelastic modelling of gyroplane rotors［D］. Glasgow :University of Glasgow, 2009.
［12］Suzuki A. Application of dynamic inflow theory to wind turbine rotors［D］. Utah :The University of Utah, 2000,
［13］Snel H, Schepers J. Engineering moles for dynamic inflow phenomena［J］. Journal of Wind Engineering and Industrial
Aerodynamics, 1992, 39(13): 267281.
［14］Schepers J, Snel H, Bussel G J W. Dynamic inflow: Yawed conditions and partial span pitch control［R］. ECNC95
056, 1995.
［15］Snel H, Scheppers J G. Investigation and modelling of dynamic inflow effects［C］∥Proc European Community Wind
Energy Conf Lubeck Travemunde. Germany :［s.n.］,1993: 371375.
［16］Snel H. Survey of induction dynamics modeling within BEMlike codes Dynamic inflow and yawed flow modeling
revisited［C］∥Aerospace Sciences Meeting and Exhibit. Reno, NV, United States:［s.n.］, 2001: 7280.
［17］Kecskemety K M, McNamara J J. Investigation into the impact of wake effects on the aeroelastic response and
performance of wind turbines［EB/OL］. (2011)［20110901］.
http://www.mecheng.osu.edu/lab/cael/sites/default/files/AIAA20111948389.pdf.
［18］Xiong L, Xianmin Z, Gangqiang L, et al. Dynamic Response analysis of the rotating blade of horizontal axis wind
turbine［J］. Wind Engineering,2010,34(5): 543560.
［19］Sebastian T, Lackner M. A comparison of firstorder aerodynamic analysis methods for floating wind turbines［EB/OL
］．（2010）［20110901］. http://pdf.aiaa.org/preview/2010/CDReadyMASM10_1812/PV2010_998.pdf.
［20］Meng F, Masarati P, Van Tooren M. Free/open source multibody and aerodynamic software for aeroelastic analysis of
wind turbines［EB/OL］.(2011)［20110901］. http://citeseerx.ist.psu.edu/viewdoc/download?
doi=10.1.1.192.7631&rep=rep1&type=pdf.

［21］刘雄, 张宪民, 陈严，等. 基于动态入流理论的水平轴风力机动态气动载荷计算模型［J］. 太阳能学报，2009(4):412419.
LIU Xiong, ZHANG Xianming, CHEN Yan, et al. Transient aerodynamic load prediction model for horizontal axis wind
turbines based on dynamic inflow theory ［J］. Acta Energlae Solaris Sinica, 2009(4):412419.

［22］Leishman J G. Challenges in modelling the unsteady aerodynamics of wind turbines［J］. Wind Energy， 2002，5
(23):85132.
［23］沈昕, 竺晓程, 杜朝辉. 两种自由尾迹模型在风力机气动性能预测中的应用［J］.太阳能学报，2010(7):923927.
SHEN Xin, ZHU Xiaocheng, DU Zhaohui. Using two free wake methods to predict the aerodynamics performance of HAWT ［J
］. Acta Energlae Solaris Sinica，2010(7): 923927.
［24］Shen X, Zhu X, Du Z. Wind turbine aerodynamics and loads control in wind shear flow［J］. Energy, 2011;36
(3):14241434.
［25］Hand M M, Simms D A, Fingersh D A, et al. Unsteady aerodynamics experiment phase VI : Wind tunnel test
configurations and available data campaigns unsteady aerodynamics experiment phase VI ［R］.NREL/TP50029955, 1617
Cole Boulevard，USA: National Renewable Energy Laboratory,2001.

编辑推荐

Metrics

阅读次数

全文

423

HTML			PDF

最新录用	在线预览	正式出版	最新录用	在线预览	正式出版
0	0	0	0	0	423

来源	本网站	其他网站

次数	28	395
比例	7%	93%

摘要