配水网容积式涡轮机不同叶片转子几何形状的参数比较

IF 2 Q2 ENGINEERING, MECHANICAL
I. Baratian, B. Ghobadian, Ahmad Banakar
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引用次数: 0

摘要

作为泄压阀的替代品,水轮机在配电网络中利用水能的应用正在稳步增加。这些水轮机特别适合从不可压缩的亚音速流体流中回收能量。在这篇研究论文中,对设计用作水轮机的三种正排量叶片机型进行了广泛的研究和比较。所选的三种涡轮机类型包括圆叶涡轮机、摆线弧形叶涡轮机和表摆线弧形叶涡轮机。这些水轮机都是针对各自的应用而精心设计和开发的。在相同的运行条件下,采用优化程序来提高所有三种涡轮机变体的容积效率和功率效率,每种变体都有不同数量的叶片。研究人员设计了一套计算机程序,用于优化和计算各种运行条件下的叶片几何形状。这项研究深入探讨了叶片几何类型和叶片数量对涡轮机效率和尺寸的影响。本研究对获得的数据进行了系统分析,并对不同涡轮机的性能进行了比较。值得注意的是,圆叶涡轮机在三种涡轮机中体积最大,占用空间也更大。摆线弧需要更多的材料,导致转子体积增大,从而导致总体成本增加。相比之下,摆线弧叶涡轮机的体积最小,运行所需的空间也较小。从效率来看,摆线弧叶涡轮机在使用两个叶片时效率最高,而圆叶涡轮机在使用六个叶片时效率最低。此外,在叶片数量相同的涡轮机中,摆线弧叶涡轮机的效率始终高于圆叶涡轮机。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Parametric comparison of different lobe rotor geometry for positive displacement turbine in water distribution network
The application of hydro turbines for harnessing water energy within distribution networks, as an alternative to pressure relief valves, is steadily increasing. These turbines are particularly suitable for recovering energy from incompressible subsonic fluid flows. In this research paper, three models of positive displacement lobe machine designed to function as water turbines were extensively examined and compared. The three selected turbine types included the circular lobe turbine, the cycloidal arc lobe turbine and the epicycloid arc lobe turbine. These turbines were meticulously designed and developed for their respective applications. Under identical operational conditions, optimization processes were applied to enhance volumetric efficiency and power efficiency for all three turbine variants, each having a different number of blades. A computer program was devised to facilitate the optimization and calculation of blade geometries under various operating conditions. This research delved into the impact of blade geometry type and the number of blades on turbine efficiency and size. The data obtained from the present investigation were systematically analyzed, and the performance of the different turbines were compared. Notably, the circular lobe turbine was found to be the largest among the three, occupying more space. The cycloidal arc requiring a greater amount of material resulting in rotor volume, which subsequently resulted in a higher overall cost. In contrast, the cycloidal arc lobe turbine emerged as the smallest variant, demanding less space for operation. Efficiency-wise, the cycloidal arc lobe turbine exhibited the highest efficiency with two blades, while the circular lobe turbine displayed the lowest efficiency with six blades. Moreover, among the turbines with the same number of lobes, the cycloidal arc lobe turbine consistently demonstrated superior efficiency compared to the circular lobe turbine.
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来源期刊
Frontiers in Mechanical Engineering
Frontiers in Mechanical Engineering Engineering-Industrial and Manufacturing Engineering
CiteScore
4.40
自引率
0.00%
发文量
115
审稿时长
14 weeks
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