基于能量成本的风力机叶片形状设计与气动特性

2015 Seventh International Conference on Measuring Technology and Mechatronics Automation Pub Date : 2015-06-13 DOI:10.1109/ICMTMA.2015.237

W. Xudong, Xia Hongjun

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引用次数: 1

摘要

根据风力机的发电量，提出了一种基于空气动力学的风力机叶片优化设计新方法。设计目标是根据年发电量(AEP)和转子成本计算出的最小能源成本。本研究中使用的设计变量是弦和扭角。考虑了叶片形状参数和叶片载荷作为约束条件。利用本文建立的模型，对一台2mw风力发电机组转子进行了设计。对所设计转子的气动特性进行了仿真和绘图。为了证明结果的可靠性，将所设计的2mw转子与现有广泛使用的2mw转子进行了比较。额定风速由15m/s降至12.8 m/s，表明所设计的转子在低风速下具有较高的功率。最大功率系数由0.463提高到0.49，可有效提高年发电量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Shape Design and Aerodynamic Characteristics of Wind Turbine Blades Based on Energy Cost

According to the energy yield of wind turbines, a new design method for optimizing wind turbine blades based on the aerodynamics is presented. The design object is the minimum cost of energy which is calculated from the Annual Energy Production (AEP) and the cost of the rotor. The design variables used in the current study are the chord and twist angle. The blade shape parameters and the loads of the blades are considered as the constraints. With the model in this paper, one 2 MW wind turbine rotor is designed. The aerodynamic characteristics of the designed rotor are simulated and plotted. To prove the reliability of the results, the comparison between the designed 2 MW rotor and one existing widely used 2 MW rotor is completed. The rated wind speed is reduced from the 15m/s to 12.8 m/s that displays the designed rotor has high power at the low wind speed. The maximum power coefficient is increased from 0.463 to 0.49 that can effectively improve the annual power generation.

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来源期刊

2015 Seventh International Conference on Measuring Technology and Mechatronics Automation

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