Numerical comparison and efficiency analysis of three vertical axis turbine of H-Darrieus type

Angie Guevara-Munoz, D. Hincapie-Zuluaga, J. Sierra-Del Rio, M. A. Rodriguez-Cabal, E. Torres-López
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Abstract

Hydropower is an important source of energy in Latin America. Many countries in the region, including Brazil, Peru, Colombia, and Chile, rely heavily on hydropower plants to meet their energy needs. However, there are also challenges related to the use of hydropower in the region, such as the construction of dams that can have negative impacts on ecosystems and local communities. A new alternative is the production of energy through hydrokinetic turbines because they are a clean and renewable energy source that does not emit greenhouse gases. In addition, its production is predictable and can be generated in a variety of environments, from coasts to rivers and canals. Within the hydrokinetic turbines are the H-Darrieus turbines although they are still under development, they are seen as an important opportunity to diversify the energy matrix and reduce dependence on fossil fuels. The main purpose of this study is to determine and compare the efficiency of three Darrieus H-type vertical axis hydrokinetic turbines numerically. The turbines were configured with different solidities. The NACA 0018 profile was used for the turbine design. The study was carried out using the ANSYS® Fluent 2022R2 software, two-dimensional (2D) simulations set up constant operating conditions. Rotation speed variations have been set between 21 and 74 RPM with 10 rpm increments. Furthermore, the General Richardson extrapolation method is used for the analysis of mesh convergence, monitoring the turbine power coefficient as a convergence parameter. The numerical results show that the turbine H-Darrieus with a solidity of 1.0, a wider operating range, and lower power and torque coefficient. At low TRS, the largest solidity provided the best efficiency and the greatest self-starting capability, but it also had the smallest operating range
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H-Darrieus型三垂直轴水轮机的数值比较与效率分析
水电是拉丁美洲重要的能源来源。该地区的许多国家,包括巴西、秘鲁、哥伦比亚和智利,严重依赖水电站来满足其能源需求。然而,该地区也存在与水电使用有关的挑战,例如水坝的建设可能对生态系统和当地社区产生负面影响。一种新的替代方案是通过水动力涡轮机生产能源,因为它们是一种不排放温室气体的清洁可再生能源。此外,它的生产是可预测的,可以在各种环境中产生,从海岸到河流和运河。水力涡轮机中有H-Darrieus涡轮机,尽管它们仍处于开发阶段,但它们被视为使能源矩阵多样化和减少对化石燃料依赖的重要机会。本研究的主要目的是对三种达里厄斯h型垂直轴水动力水轮机的效率进行数值确定和比较。涡轮配置了不同的固化度。涡轮设计采用了NACA 0018型线。该研究使用ANSYS®Fluent 2022R2软件,在恒定的操作条件下进行二维(2D)模拟。转速变化已设置在21和74 RPM之间,以10 RPM增量。此外,采用一般Richardson外推法进行网格收敛分析,监测涡轮功率系数作为收敛参数。数值计算结果表明,该涡轮H-Darrieus的固体度为1.0,工作范围更宽,功率和扭矩系数更低。在低TRS下,最大的固体度提供了最好的效率和最大的自启动能力,但其工作范围也最小
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来源期刊
EUREKA: Physics and Engineering
EUREKA: Physics and Engineering Engineering-Engineering (all)
CiteScore
1.90
自引率
0.00%
发文量
78
审稿时长
12 weeks
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