李同卓, 杨志朋, 温小萍.射流泵内置翼片不同倾角流体混合效果及流场数值模拟[J].河南理工大学学报（自然科学版）,2022,41(6):123-129.

LI T Z, YANG Z P, WEN X P.Numerical simulation of mixing effect and flow field of internal vane of jet pump with different inclination angles[J].Journal of Henan Polytechnic University(Natural Science) ,2022,41(6):123-129.

射流泵内置翼片不同倾角流体混合效果及流场数值模拟

李同卓, 杨志朋, 温小萍

河南理工大学 机械与动力工程学院，河南 焦作 454000

摘要:为提高射流泵内部流体混合效率，首次提出在射流泵内部喉管中内置扇形翼片，并基于k-ε紊流模型，通过软件Fluent进行模拟分析，探究翼片倾角对射流泵流体混合效果及内部流场的影响。结果表明：射流泵内置翼片后整体混合程度有所提升，最高可将出口处不均匀系数由0.218 7降低至0.105 4；同倾角下不同大小翼片表现差异较大，小翼片结构下倾角角度过大对内部流场及混合程度影响较弱；大翼片结构下小角度倾角易对核心射流造成破坏且使其对中性下降，导致混合程度降低。研究结果为射流泵进一步优化设计、增强混合效果提供了理论依据。

关键词:射流泵;数值模拟;翼片倾角;内部流场;混合效果

doi:10.16186/j.cnki.1673-9787.2021080048

基金项目:国家自然科学基金资助项目（51774115）；河南理工大学动力工程及热物理学科基金资助项目（722403/020）

收稿日期:2021/08/13

修回日期:2021/10/03

出版日期:2022/11/25

Numerical simulation of mixing effect and flow field of internal vane of jet pump with different inclination angles

LI Tongzhuo, YANG Zhipeng, WEN Xiaoping

School of Mechanical and Power Engineering， Henan Polytechnic University， Jiaozuo 454000， Henan， China

Abstract:In order to improve the mixing efficiency of the internal fluid in the jet pump，a fan-shaped vane was built in the internal pipe of the jet pump for the first time.Based on the k-ε  turbulence model，the software Fluent was used to simulate and analyze the influence of the vane angle on the internal flow field and fluid mixing effect of the jet pump.The results showed that the mixing degree of the jet pump was improved with the built-in vanes，and the maximum non-uniformity coefficient at the outlet could be reduced from 0.218 7 to 0.105 4.The performance of different sizes of vanes varied greatly under the same inclination angle.In the small structure vanes，the mixing degree was less affected with large inclination angle.In the case of large structure vanes，small inclination angle could destroy the core jet easily and make it drop to neutral，which led to the reduction of mixing degree.The results provided a theoretical basis for optimizing the design of jet pump and enhancing the mixing effect.

Key words:jet pump;numerical simulation;blade angle;internal flow field;mixed effect

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