A computational fluid dynamics analysis on enhancing wind turbine efficiency through synthetic jet actuation

IF 1.9 4区工程技术 Q4 ENERGY & FUELS

Journal of Renewable and Sustainable Energy Pub Date : 2024-07-01 DOI:10.1063/5.0208120

A. Matiz-Chicacausa, S. Molano, O. L. Mejia

引用次数: 0

Abstract

Synthetic jets (SJs) offer a promising technique for enhancing aerodynamic efficiency in vertical-axis wind turbines (VAWTs) by controlling boundary layer separation on airfoils. This study uses computational fluid dynamics simulations to investigate the impact of SJs on a VAWT. The results show that SJs effectively delay stall onset, increasing lift coefficient at high angles of attack, leading to an estimated 17% improvement in output power when applied to full VAWT simulations using the actuator line model at Tip Speed Ratio equal to 3. Additionally, the study suggests SJs may positively affect wake behavior by reducing turbulence and modifying wake velocity profiles, which could further influence power generation in wind farms. This research underscores the importance of model selection in accurately predicting the aerodynamic benefits of SJs, providing a foundational understanding for future exploration in VAWT applications.

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通过合成射流驱动提高风力涡轮机效率的计算流体动力学分析

合成射流（SJ）通过控制翼面上的边界层分离，为提高垂直轴风力涡轮机（VAWT）的气动效率提供了一种前景广阔的技术。本研究使用计算流体动力学模拟来研究 SJ 对 VAWT 的影响。结果表明，SJs 可有效延迟失速的发生，增加高攻角的升力系数，当使用推杆线模型在顶速比等于 3 时对全 VAWT 进行模拟时，估计输出功率可提高 17%。此外，研究还表明，SJs 可通过减少湍流和改变尾流速度剖面对尾流行为产生积极影响，从而进一步影响风力发电场的发电量。这项研究强调了模型选择在准确预测 SJ 的空气动力效益方面的重要性，为未来 VAWT 应用领域的探索提供了基础性的认识。

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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来源期刊

Journal of Renewable and Sustainable Energy ENERGY & FUELS-ENERGY & FUELS

CiteScore

4.30

自引率

12.00%

发文量

122

审稿时长

4.2 months

期刊介绍： The Journal of Renewable and Sustainable Energy (JRSE) is an interdisciplinary, peer-reviewed journal covering all areas of renewable and sustainable energy relevant to the physical science and engineering communities. The interdisciplinary approach of the publication ensures that the editors draw from researchers worldwide in a diverse range of fields. Topics covered include: Renewable energy economics and policy Renewable energy resource assessment Solar energy: photovoltaics, solar thermal energy, solar energy for fuels Wind energy: wind farms, rotors and blades, on- and offshore wind conditions, aerodynamics, fluid dynamics Bioenergy: biofuels, biomass conversion, artificial photosynthesis Distributed energy generation: rooftop PV, distributed fuel cells, distributed wind, micro-hydrogen power generation Power distribution & systems modeling: power electronics and controls, smart grid Energy efficient buildings: smart windows, PV, wind, power management Energy conversion: flexoelectric, piezoelectric, thermoelectric, other technologies Energy storage: batteries, supercapacitors, hydrogen storage, other fuels Fuel cells: proton exchange membrane cells, solid oxide cells, hybrid fuel cells, other Marine and hydroelectric energy: dams, tides, waves, other Transportation: alternative vehicle technologies, plug-in technologies, other Geothermal energy