Experimental and Numerical Analysis Design of a Lab-Scale on Horizontal Axis Wind Turbine with Winglets

2018 International Seminar on Intelligent Technology and Its Applications (ISITIA) Pub Date : 2018-08-01 DOI:10.1109/ISITIA.2018.8711027

N. A. Satwika, R. Hantoro, Sarwono

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Abstract

since early times has recorded history, the people have been utilized wind energy. Wind energy is one of the renewable energy sources and the wind turbine is used to generate electrical energy by the rotational rotor (mechanical energy). The favored form of turbine used for research is the horizontal axis wind turbine (HAWT) with winglets and optimization blade. Blade element momentum (BEM) was used for the design of the blades with 15 segments and the computational fluid dynamics was carried out using fluent for fluid flow through a process using a transient mode and RANS method to solve the problem during an experimental data at the wind tunnel. For the experimental process, the wind tunnel is used for test section on HAWT with velocity variations. The result show, that adding a winglet to existing a blade can change the downwash distribution leading to increased produced power and decrease an induced drag on a long blade, with lower tip speed ratio (TSR), winglet currently give a good starting torque for increase the power of wind turbine.

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小翼水平轴风力机实验与数值分析设计

早在有历史记载的时候，人们就已经在利用风能了。风能是一种可再生能源，风力发电机是通过转子的转动来产生电能(机械能)。用于研究的风力机的首选形式是带小翼和优化叶片的水平轴风力机(HAWT)。采用叶片元动量(BEM)对15段叶片进行了设计，并利用fluent进行了流体力学计算，利用瞬态模态和RANS方法对风洞实验数据进行了求解。在实验过程中，采用风洞作为速度变化的HAWT试验段。结果表明，在原有叶片上增加小翼可以改变下冲分布，从而增加了长叶片的产生功率，减小了诱导阻力，在较低的叶尖速比(TSR)下，小翼提供了良好的起动转矩，可以提高风力机的功率。

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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2018 International Seminar on Intelligent Technology and Its Applications (ISITIA)

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