Solid–Liquid Flow Analysis of Francis-99 Turbine Runner: Effects of Sediment Concentration

IF 3.4 3区工程技术 Q3 ENERGY & FUELS

Energy Science & Engineering Pub Date : 2025-05-26 DOI:10.1002/ese3.70159

Kang Xu, Pinyu Xiang, Ziyao Zhou, Yufan Xiong, Zhishun Yu, Xiaobing Liu, Jiayang Pang

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Abstract

This study examines the behavior of solid–liquid two-phase flow within the runner of the Francis-99 turbine. Numerical simulations were carried out by Ansys Fluent software using the Mixture multiphase flow model along with the Realizable k-ε turbulence model to analyze the solid–liquid two-phase flow in the turbine runner. The sediment distribution on the turbine runner surface was evaluated for different sediment concentrations (SC = 500, 1500, 2500, 5000, 8000, and 11,500 ppm). The results indicate that sediment particles within the runner primarily adhere to the surfaces of the runner blades, displaying a uniform distribution. With increasing sediment concentration, the sediment volume fraction on the turbine blade surface rises significantly. The sediment distribution on both long and short blades exhibits similarity, with peak concentration observed at the trailing edge and mid-sections of the blades. Additionally, the sediment volume fraction is greater on the pressure side of the blades than on the suction side. This study aims to expand the research on multiphase flow characteristics of the Francis-99 turbine.

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Francis-99水轮机转轮固液流动分析：泥沙浓度的影响

本文研究了Francis-99型水轮机转轮内固液两相流动的特性。利用Ansys Fluent软件，采用混合多相流模型和Realizable k-ε湍流模型，对涡轮转轮内固液两相流动进行了数值模拟。在不同的泥沙浓度（SC = 500、1500、2500、5000、8000和11,500 ppm）下，对水轮机转轮表面的泥沙分布进行了评估。结果表明：流道内泥沙颗粒主要附着在流道叶片表面，呈均匀分布；随着泥沙浓度的增加，涡轮叶片表面泥沙体积分数显著升高。长叶和短叶的泥沙分布具有相似性，在叶片尾缘和中部均有浓度峰值。此外，叶片压力侧的泥沙体积分数大于吸力侧。本研究旨在扩大对Francis-99水轮机多相流特性的研究。

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

Energy Science & Engineering Engineering-Safety, Risk, Reliability and Quality

CiteScore

6.80

自引率

7.90%

发文量

298

审稿时长

11 weeks

期刊介绍： Energy Science & Engineering is a peer reviewed, open access journal dedicated to fundamental and applied research on energy and supply and use. Published as a co-operative venture of Wiley and SCI (Society of Chemical Industry), the journal offers authors a fast route to publication and the ability to share their research with the widest possible audience of scientists, professionals and other interested people across the globe. Securing an affordable and low carbon energy supply is a critical challenge of the 21st century and the solutions will require collaboration between scientists and engineers worldwide. This new journal aims to facilitate collaboration and spark innovation in energy research and development. Due to the importance of this topic to society and economic development the journal will give priority to quality research papers that are accessible to a broad readership and discuss sustainable, state-of-the art approaches to shaping the future of energy. This multidisciplinary journal will appeal to all researchers and professionals working in any area of energy in academia, industry or government, including scientists, engineers, consultants, policy-makers, government officials, economists and corporate organisations.