Optimization design of nozzle and numerical simulation of internal flow field in low-pressure sprinkler

ZHANG Qian;YUAN Shouqi;LIU Junping;BAO Ya;National Research Center of Pumps,Jiangsu University;

low-pressure sprinkler;;special-shaped nozzle;;optimization design;;numerical simulation;;hydraulic performance

In view of poor sprayiag uniformity and short range in low-pressure sprinklers,various special-shaped nozzles are designed based on the principle of identical cross-sectional area. ANASY CFX is applied to simulate three-dimensional internal flow field in these sprinklers. The numerical simulation results are validated by using the measured performance parameters of low-pressure sprinklers,including range,water distribution and drop diameter. The simulated results show that the region occupied by high velocity at the outlet of inverted U shaped nozzle is the largest and the velocity profile keeps consistent with the increasing working pressure,showing a good advantage in extending the range and improving the spraying uniformity. The experimental results show that the range of inverted U shaped nozzle is about 1. 110 times than that of the circular nozzle,which is basically around2% lower than the prediction. At a 300 k Pa working pressure,the drop diameter generated by the in-verted U shaped nozzle is 4. 21 mm as the minimum,showing the best atomization performance. The water distribution in that nozzle is approximately triangular,all the uniformity coefficients are more than82%. With increasing distance,the water through the circular and rounded rectangular nozzles rises first,and then decreases,and all the uniformity coefficients are lower than that of the inverted U shaped nozzle. In conclusion,the hydraulic performance of the inverted U shaped nozzle is much better in comparison with the others,particularly,the range is increased on the basis of uniformity improved.