Abstract

A two-dimensional fluidic thrust vectoring nozzle with a secondary shock wave channel is designed in this paper. The direct secondary shock wave channel is composed of a front vacuum chamber, a secondary flow chamber, and a rear vacuum chamber. Based on the numerical simulations using a Navier-stokes solver, the structural parameters of the secondary shock wave channel on the nozzle performance are studied.

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Peer Review Statement
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IOP Conference Series: Earth and Environmental Science | VOL. 1371
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01 Jul 2024
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