Modelling of a wind power turbine

2015 Internet Technologies and Applications (ITA) Pub Date : 2015-11-05 DOI:10.1109/ITECHA.2015.7317396

Fabian Christ, C. Abeykoon

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引用次数: 1

Abstract

Due to the predicted scarcity of the fossil fuels and their adverse effects to the environment, currently renewable energy generation is a major focus of the power and energy sector. Wind energy is one of the potential and rapidly growing sources of green energy. This is particularly due to the cost of the wind energy production has reduced by a factor of more than five over the last two decades. Moreover, wind turbines can cover a wide range of power outputs from 50 W to 5 MW and beyond compared to other green energy sources. This study is aimed to model a horizontal axis wind power turbine theoretically and computationally. Initially, theoretical calculations were carried out by considering a few specific case studies with different power outputs. Then, the same case studies were considered for a computational fluid dynamics (CFD) analysis. Theoretical results show that the modelled wind turbine reaches a power output of 4.4 MW. Moreover, the theoretically calculated thrust and torque show a good agreement with the values obtained from CFD with a deviation of 2.9% only which confirms the accuracy of results. Therefore, the findings of this work should be useful in investigating ways to improve the performance of horizontal axis wind turbines.

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风力发电机的建模

由于预测化石燃料的稀缺性及其对环境的不利影响，目前可再生能源发电是电力和能源部门的主要重点。风能是一种潜力巨大、发展迅速的绿色能源。这主要是由于风能生产的成本在过去二十年中降低了五倍以上。此外，与其他绿色能源相比，风力涡轮机的功率输出范围从50瓦到5兆瓦甚至更高。本研究旨在建立水平轴风力发电机组的理论和计算模型。最初，理论计算是通过考虑几个具有不同功率输出的具体案例进行的。然后，将相同的案例研究用于计算流体动力学(CFD)分析。理论结果表明，模拟的风力发电机输出功率达到4.4 MW。理论计算的推力和扭矩与CFD计算值吻合较好，偏差仅为2.9%，证实了计算结果的准确性。因此，这项工作的发现应该有助于研究提高水平轴风力涡轮机性能的方法。

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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2015 Internet Technologies and Applications (ITA)

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