Enhancement of air entrainment in ejector-diffuser using plate guidance at slots to reduce infrared emission

A passive Infrared Suppression (IRS) device is an important and integral part of the modern naval/cargo ships, fighter jets and helicopters to cool down the hot exhaust gas so as to suppress the infrared (IR) signatures. In this work, a modified IRS device has been proposed by putting inward/outward guides. The air entrainment and temperature ratios of the new type IRS device have been investigated by solving transport equations (continuity, momentum, energy and turbulence) using the finite volume solver in ANSYS Fluent. The Reynolds number (Ren), guide lengths (Lg/Dn), the inclination angle of guides (Thetag), overlap-height (Hov/Dn) and the outlet temperature ratio (Tout/Tinf) have been varied in the range of 1.5×105 to 1.5×106, 0 to 0.326, 0° to 75°, −0.326 to 0.018 and 1.243 to 2.576, respectively. It has been observed that the dimensional air entrainment increases with the Reynolds number, and inlet temperature. The guide length alters the flow inside the IRS device, and affects the entrainment ratio. We observed that, at the optimal value of guide length (Lg/Dn=0.163) and inclination angle (15°), the IRS device entrains the maximum air, and attains a minimum temperature at the outlet. The mass suction and the outlet temperature of two different types of the IRS devices have also been compared to choose the best one for the practical engineering application. An empirical correlation equation for air entrainment has been developed using nonlinear regression analysis.

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Enhancement of air entrainment in ejector-diffuser using plate guidance at slots to reduce infrared emission

Cited by 4 publications

References 30 publications

Numerical investigation of buoyancy-induced thermo-fluid characteristics of different types of infrared suppression (IRS) devices

Numerical investigation of buoyancy-induced thermo-fluid characteristics of different types of infrared suppression (IRS) devices

Numerical investigation of mixed convection through an infrared-suppression (IRS) device

Air Entrainment and Outlet Temperature Characteristics of a Modified Infrared Suppression Device With Inward and Outward Guides

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