Abstract

 Self-priming pump as the core equipment for flood fighting and emergency rescue plays an important role in flood prevention and other fields. More importantly, the geometric parameters of the self-priming nozzle directly determine the performance of the self-priming pump. In the previous analysis,only small amount of experiment was conducted to optimize the geometry parameters of self-priming nozzle, and the interaction between the parameters was not considered. In this paper, the full factor test method is employed to explore the main and interaction effect of the nozzle geometric parameters on the self-priming performance, and the order of response to self-priming time is obtained. Meanwhile, a novel self-priming performance model was established, the self-priming time of different geometric parameters self-priming nozzles can be effectively predicted, and the test analysis cycle and production costs were greatly reduced. Finally, the self-priming test under different self-priming height with optimal self-priming nozzle was conducted, the variation regulation between self-priming time and self-priming height was obtained. Therefore, this research could effectively provide the design reference of self-priming nozzles optimization.
Highlights
Self-priming pump [1] as the core equipment for flood fighting and emergency rescue, play an important role in flood prevention and other fields
Zhou et al [3] investigated the influence of the reflux hole on the transient startup performance of the self-priming centrifugal pump
Yao et al [4] employed the Fluent to analyse the gas-liquid two-phase unsteady characteristic of vertical self-priming pump, which could provide the reference to the design method of high-head vertical self-priming pump
Summary
Self-priming pump [1] as the core equipment for flood fighting and emergency rescue, play an important role in flood prevention and other fields. In this paper, the full factor test method is employed to explore the main and interaction effect of the nozzle geometric parameters on the self-priming performance, and the order of response to selfpriming time is obtained. The full factor test method can load each level of each parameter in the analysis process, and more comprehensive test schemes and more sufficient statistical analysis results are obtained This method can analyze the main effects of the parameters, and effectively evaluate the interaction between the parameters. The full factor test method is employed in this paper to explore the main and interaction effect of the nozzle geometric parameters on the self-priming performance, which can further verify the analysis results of the gray correlation method
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