Design and Performance Evaluation of Low-Speed Vertical Axis Wind Turbines with Wind Boosters using CFD Analysis

SMART MOVES JOURNAL IJOSCIENCE Pub Date : 2021-12-28 DOI:10.24113/ijoscience.v7i12.448

Sardar Karanjeet Singh, Shravan Vishwakarma

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Abstract

The use of wind based energy is quickly expanding over the planet. The goal of this study is to use computational methods of fluid dynamics to develop a novel model of VAWT including Windbooster for various rotor blades like two, three, and four blades in order to enhance effectiveness. CAD modelling approaches of vertical axis wind turbines including and excluding booster are created. Including all vertical axis wind turbine blade designs including and excluding booster, torque, power, and Coefficient of performance are compared.The performance of three blades on the basis of mechanical properties includingi wind amplifier is 29.9% greater than two blades using wind amplifier, and four blades using wind amplifier is 21.5 percent greater than three blades using wind amplifier, according to the findings. Because the mechanical energy created by a four-blade wind booster wasn't as great as it is including three blades, VAWT employing three-blade wind booster seems to be more effective than VAWT with a two- or four-blade wind booster. For improved mechanical durability, VAWT with three-blade wind amplifier is recommended.

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基于CFD分析的带风力助推器的低速垂直轴风力机设计与性能评价

风能的使用在全球范围内迅速扩大。本研究的目的是利用流体力学的计算方法，建立一种包含风助力器的新型VAWT模型，用于不同的桨叶，如二桨叶、三桨叶和四桨叶，以提高效率。建立了包括助推器和不包括助推器在内的垂直轴风力机的CAD建模方法。包括所有垂直轴风力机叶片设计，包括和不包括增压、扭矩、功率和性能系数的比较。结果表明，含1个风放大器的三片叶片在力学性能基础上的性能比2个风放大器的性能高29.9%，4个风放大器的性能比3个风放大器的性能高21.5%。由于四叶风力助推器产生的机械能不如三叶风力助推器产生的机械能大，采用三叶风力助推器的VAWT似乎比采用二叶或四叶风力助推器的VAWT更有效。为了提高机械耐久性，建议使用带三叶片风放大器的VAWT。

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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SMART MOVES JOURNAL IJOSCIENCE

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