Computational Analysis for Reducing Jet Wind from Blast Wave Generator

-the effect of nozzle shape and pressure of the driver section-

Abstract

High order Euler simulations are conducted to investigate suppressing method of jet winds associated with shock waves generated by a blast wave generator, and occurrence factors of the jet winds and influences of a volume of the driver section and the nozzle angle are discussed. The results show that the jet wind is caused by a vortex which occurs at the nozzle edge and can be reduced by decreasing the volume of the driver section. Furthermore, in the present computational cases, using the moderate nozzle angle (1.71 deg.) reduces the jet wind near the nozzle exit and using the large nozzle angle (6.51 deg.) reduces jet wind at the place distant from the nozzle exit. These result show reducing the driver section and using the proper nozzle angle depending on the distance from nozzle exit are effective for reducing the jet wind.