Design and analysis of a cooling system for a supersonic exhaust diffuser

Farahani, Mohammad; Fouladi, Nematollah; Mirbabaei, AR

doi:10.1177/0954410019840970

Cited by 2 publications

(1 citation statement)

References 17 publications

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“…The finite volume method was used for discretizing the governing equation. The turbulent model, RNG k-" model, 35 was chosen, which has been verified to be more accurate for supersonic gas jet problems. 5 Mesh convergence test and time step accuracy…”

Section: Numerical Conditions and Methodsmentioning

confidence: 99%

Transient influence of water injection on the flow field of a hot launch in a W-shaped silo

Shi

Jiang

2019

Proceedings of the Institution of Mechanical Engineers, Part G:

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This study attempts to determine the effect of and mechanisms for the suppression of the ignition pressure and back-flowing exhaust during a hot launch process in a W-shaped silo, considering the missile movement via dynamic mesh technology. The mixture model for the multiphase and the turbulent model employed were experimentally proved to be accurate and reliable. The numerical results show that the injection of water into a missile exhaust can effectively suppress the ignition overpressure, thereby reducing the time of oscillation and oscillation amplitude, and reducing the maximum pressure at missile bottom from 3.68 × 105 Pa to 2.39 × 105 Pa. In addition, water injection makes the back-flowing exhaust remain at the bottom of the launch duct instead of filling the duct, and it cools the missile bottom, thus leading to a reduction in the maximum temperature from 3000 K to approximately 500 K.

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Section: Numerical Conditions and Methodsmentioning

confidence: 99%