倾斜蜗舌对前弯离心风机蜗舌区域流动影响的数值研究Numerical Analysis of Flow Characteristics in Volute Tongue of Forward Curved Centrifugal Fan Affected by Inclined Volute Tongue
陈阳,黄友根,王军,付观井,黄健洪
CHEN Yang,HUANG You-gen,WANG Jun,FU Guan-jing,HUANG Jian-hong
摘要(Abstract):
为分析蜗舌的不同倾斜角度对离心风机蜗舌区域的非定常流动特征的影响,本文以一款高压前向离心风机为研究对象,对3种不同倾角的蜗舌结构风机进行了稳态的三维流场计算,并采用大涡模拟方法对其最优工况进行了非定常数值模拟。结果表明:随着蜗舌倾角的增加风机全压大致呈线性下降趋势,而适当的蜗舌倾角有利于提高风机的效率;蜗舌表面最高压力区随着倾角的增大,逐渐从蜗舌顶部中间位置向靠近后盖板侧的蜗舌顶部移动;不同倾角下蜗舌中间点P_2的压力脉动主频均为叶片通过频率,而点P_1和P_3的压力脉动主频为叶轮转频或其2倍转频。
In order to analyze the unsteady flow characteristics in the tongue area of centrifugal fan under the tongues with different inclined angle,this paper takes a forward centrifugal fan for study. Three different types of modified centrifugal fans were simulated and unsteady numerical simulation was conducted using large-eddy simulation at optimum condition. The results indicated that as the inclined angle increased,the total pressure of the centrifugal fan reduced,and an appropriate tilt angle could enhance the total pressure efficiency. Besides,as the inclined angle increased,the highest pressure region moved from the middle position of tongue to the position near the back cover plate. For different inclined angle configurations,the blade passing frequency was dominate in the pressure fluctuation of point P_2 on the middle position of tongue,while the rotating frequency or two times rotating frequency dominated the pressure pulsations of point P_1 and P_3.
关键词(KeyWords):
前向离心风机;倾斜蜗舌;数值模拟;压力脉动
centrifugal fan;inclined volute tongue;numerical simulation;pressure pulsation
基金项目(Foundation):
作者(Author):
陈阳,黄友根,王军,付观井,黄健洪
CHEN Yang,HUANG You-gen,WANG Jun,FU Guan-jing,HUANG Jian-hong
参考文献(References):
- [1]Sandra V S,Rafael B T,Carlos S M,et al.Reduction of the aerodynamic tonal noise of a forward-curved centrifugal fan by modification of the volute tongue geometry[J].Applied acoustics,2008(69):225-232.
- [2]Datong Qi,Yijun Mao,Xiao liang Liu.Experimental study on the noise reduction of an industrial forwardcurved blades centrifugal fan[J].Applied Acoustics,2009,70(8):1041-1050.
- [3]赵婷,赵忖,师铜墙.倾斜蜗舌对离心风机降噪影响的实验研究[J].流体机械,2012,40(3):1-7
- [4]付成双,刘雪东,皱鑫,等.倾斜蜗舌对多翼离心风机流场及噪声的影响[J].噪声与振动控制,2013,33(3):91-93,122.
- [5]Smagorinsky J.General circulation experiments with the primitive equations:I The basic experiment[J].Monthly Weather Review,1963,91(3):99-164.
- [6]Hunt J,Wray A,Moin P.Eddies stream and convergence zones in turbulent flows[C].1988 Summer Program,Center for Turbulence Research Report,1988:193-208.
- [7]黎耀军,沈金峰,沈益平,等.叶顶间隙对轴流泵轮缘压力脉动影响的数值预测[J],农业机械学报,2014,45(5):63-69.
- [8]孔繁余,周水清,王志强,等.漩涡泵内部不稳定流场数值模拟[J],农业机械学报,2011,42(1):50-54.
- [9]马健峰,袁民建,刘秋洪,等.不等距叶片离心风机气动噪声的数值与实验研究[J]噪声与振动控制,2008,(3):100-103.
- [10]毛义军,祁大同,刘秋洪.基于非定常流场的离心风机气动噪声分析[J].西安交通大学学报,2005,39(9):989-993.
- [11]罗凯,罗鑫,黄闯,等.基于Fluent的多翼式离心机性能分析[J].流体机械,2014,42(7):43-47.
- [11]邓敬亮,楚武利.离心风机叶轮叶片气动优化研究[J].流体机械,2013,41(7):30-34.
- [13]曲晓锐,钱才富.多点约束(MPC)法与换热器整体有限元分析[J].压力容器,2013,30(2):58-62.
- [14]岳翠萍,曹瑞,张悦,等.双排减量式灌装压盖一体机[J].包装与食品机械,2015,33(3):41-45.
- [15]龙云,朱荣生,付强.核主泵小流量工况下不稳定流动数值模拟[J].排灌机械工程学报,2014,32(4):20-25.
- [16]黎耀军,沈金峰,严海军,等.叶顶间隙对轴流泵轮缘泄漏流动影响的大涡模拟[J].水利学报,2014,45(2):235-242.