摘要
根据速度系数法设计了1种对称的马蹄形断面蜗壳和2种非对称的圆形断面蜗壳与相同的轴流泵叶轮组合,并基于标准k-ε模型封闭的雷诺平均方程,应用ANSYS CFX 14.5软件,对设计的3个蜗壳式轴流泵内部的三维流动开展数值模拟.当采用马蹄形蜗壳时,设计流量点的扬程和效率最低,蜗壳内部压力分布不如非对称的圆形断面蜗壳均匀.选择水力效率相对较高的蜗壳,将4种轴向位置不同的叶轮与该蜗壳组合,并进行三维流动数值模拟,结果表明:叶轮出口与蜗壳进口中间平面距离40 mm时,轴流泵效率最高,叶轮出口与蜗壳进口中间平面距离80mm时,轴流泵效率最低.此时,过流段和蜗壳内有明显回流和旋涡.轴流式叶轮与蜗壳的相对位置对蜗壳轴流泵的扬程-流量曲线和效率-流量曲线都有明显的影响.
In view of the situation that the study on the volute type axial flow pump volute design optimization,the 3D flow in the volute type axial flow pump was numerically simulated by using ANSYS CFX 14. 5 software,based on Reynolds-averaged equations closed by the standard k- ε model. Three kinds of new volutes combined with impellers were simulated. The head and efficiency at the design flow rate are the lowest in case of horseshoe-section volute. The 3D flow numerical simulation between the impeller at 4 different axial positions and the volute in terms of relatively higher hydraulic efficiency was carried out. The results show that when the exit of the impeller and the volute inlet middle plane are 40 mm apart,the axial flow pump efficiency is the highest. When the impeller exit and the volute inlet middle plane are 80 mm apart,the axial flow pump efficiency is the lowest. In this case,between the impeller and volute as well as in the volute exist substantial reflux and whirlpool. The relative posi-tion of axial flow impeller and volute obviously affects the flow- head curve and the flow- efficiency curve.
出处
《排灌机械工程学报》
EI
CSCD
北大核心
2016年第2期105-109,114,共6页
Journal of Drainage and Irrigation Machinery Engineering
基金
江苏省自然科学基金资助项目(BK20131256)
江苏高校优势学科建设工程资助项目
关键词
轴流泵
蜗壳形状
叶轮位置
水力性能
数值模拟
axial flow pump
shape of volute
position of impeller
hydraulic performance
numerical simulation
