新型鳍环式水平轴水轮机水动力性能与参数优化OA
Hydrodynamic performance and parameter optimization of novel fin-ring horizontal axis hydrokinetic turbine
潮流能水轮机是海洋能开发利用中的核心装备.为拓展其适用范围,本研究采用计算流体力学方法,对一种新型鳍环式水平轴水轮机开展了三维数值模拟研究.该水轮机采用非常规结构设计,主要由中心轮毂、7 个同心环及 88 片鳍板组成.首先,对原始水轮机的水动力性能进行数值模拟,并利用文献中的实验数据验证模型可靠性.随后,针对鳍板的两个关键设计参数(拱度与攻角),进行参数化分析,系统探究了不同拱度与攻角组合下水轮机的水动力性能,确定了最优设计方案.研究结果表明:采用拱度 10 mm、攻角 20°的组合可在"导流效率"与"阻力损失"之间实现最佳平衡,从而显著提升水轮机性能.最优参数组合的峰值功率系数达到0.42,对应叶尖速比为1.8.此外,相较于传统水平轴与垂直轴水轮机,鳍环式水轮机在能量捕获效率及生态友好性等方面展现出一定优势.本研究揭示了该型水轮机的水动力特性,为其参数匹配提供了定量依据,也为潮流能水轮机的创新设计提供了新思路.
Tidal current turbines represent core equipment in the development and utilization of ocean energy.To broaden the application of such turbines,the computational fluid dynamics(CFD)method is carried out to investigate three-dimensional numerical simulations of a novel fin-ring horizontal-axis hydrokinetic turbine.This turbine features an unconventional structural design,consisting of a central hub,7 concentric rings and 88 fin plates.First,it tends to evaluate the hydrodynamic performance of the original design through numerical simulations,and verify the reliability of the numerical model against previously existing experimental measurements in literature.Then,a parametric analysis is focused on the two key design parameters of the fin plates(camber and angle of attack)to systematically examine the turbine's hydrodynamic performance with different combinations of these parameters and determine the optimal design.The results illustrate the combination of a camber of 10 mm and an angle of attack at 20°achieves the best balance between guiding efficiency and resistance loss,thereby significantly enhancing turbine performance.This optimal combination peaks with the power coefficient of 0.42 and a corresponding tip-speed ratio of 1.8.It is also demonstrated that the fin-ring turbine's certain advantages in energy capture efficiency and eco-friendliness,compared to traditional horizontal-axis and vertical-axis turbines.This study elucidates the hydrodynamic characteristics of this turbine laying a quantitative basis for parameter matching,offering new insights for innovative tidal turbine designs.
宋科;宦惠庭;魏留闯;王永利
昆明学院 机电工程学院,昆明 650214||西南大学 工程技术学院,重庆 400715西安电子科技大学 机电工程学院,西安 710071昆明学院 机电工程学院,昆明 650214云南水利水电职业学院 绿色生态水利电力工程研究中心,昆明 650499
能源科技
潮流能鳍环式水平轴水轮机水动力性能参数优化
tidal powerfin-ring horizontal axis hydrokinetic turbinehydrodynamic performanceparameter optimization
《水力发电学报》 2026 (2)
115-124,10
云南省基础研究专项(202501AT070072)云南水利水电职业学院基金资助项目(2025YSZSYS008)云南省"兴滇英才支持计划"青年人才专项(XDYC-QNRC-2023-0159)
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