Determining Optimum Rotary Blade Design for Wind-Powered Water-Pumping Systems for Local Selected Sites

Strojniški vestnik – Journal of Mechanical Engineering Pub Date : 2021-05-26 DOI:10.5545/SV-JME.2021.7104

A. Mohammed, H. Lemu, Belete Sirahbizu

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引用次数: 1

Abstract

The design of a windmill rotor is critical for harnessing wind energy. In this work, a study is conducted to optimize the design and performance of a rotor blade that is suitable for low wind conditions. The windmills’ rotor blades are aerodynamically designed based on the SG6043 airfoil and wind speed data at local selected sites. The aerodynamic profile of the rotor blade that can provide a maximum power coefficient, which is the relation between real rotor performance and the available wind energy on a given reference area, was calculated. Different parameters, such as blade shapes, chord distributions, tip speed ratio, geometries set angles, etc., were used to optimize the blade design with the objective of extracting maximum wind power for a water pumping system. Windmill rotor of 10.74 m, 7.34 m, and 6.34 m diameter with three blades were obtained for the selected sites at Abomsa, Metehara, and Ziway in south-east Ethiopia. During the rotary blades performance optimization, blade element momentum (BEM) theory and solving iteration by MATLAB® coding were used.

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确定局部选定地点风力抽水系统的最佳旋转叶片设计

风车转子的设计对风能的利用至关重要。本文研究了一种适合于低风条件下的转子叶片的优化设计和性能。风车的转子叶片是根据SG6043翼型和当地选定地点的风速数据进行空气动力学设计的。计算了在给定参考区域上转子实际性能与可用风能之间的关系，即能够提供最大功率系数的转子叶片气动外形。采用叶片形状、弦分布、叶尖速比、几何设置角等参数对叶片进行优化设计，目的是为水泵系统提取最大风力。在埃塞俄比亚东南部的Abomsa、Metehara和Ziway选定的地点获得了直径为10.74米、7.34米和6.34米的三个叶片的风车转子。在叶片性能优化过程中，采用了叶素动量(BEM)理论和MATLAB编码求解迭代。

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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Strojniški vestnik – Journal of Mechanical Engineering

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