Article
Heat and Mass Transfer and Physical Gasdynamics
2020. V. 58. № 2. P. 266–277
Benderskiy L.A., Lyubimov D.A., Terekhova A.A.
Use of the RANS/ILES method to study the efficiency of synthetic jet application for flow control in an S-shaped intake integrated with an airframe
The flow in the subsonic S-shaped air intake with a D-shaped inlet and circular outlet cross sections is calculated with the combined high-resolution RANS/ILES method. A flat plate, on which the air intake is mounted, is used as an airframe simulator. The boundary layer is specified at the beginning of the plate, and its profile is close to the profile of the turbulent boundary layer. The calculations were performed on a structured grid containing $7 \times 10^6$ cells; good agreement with the experiment data is obtained. The causes of large flow nonuniformities at the outlet of air intake are revealed; the efficiency of the use of synthetic jets to improve its characteristics is studied. The influence of the regime parameters of synthetic jets and the location of slots for their egress on the air-intake flow is analyzed.
Article reference:
Benderskiy L.A., Lyubimov D.A., Terekhova A.A. Use of the RANS/ILES method to study the efficiency of synthetic jet application for flow control in an S-shaped intake integrated with an airframe, High Temp., 2020. V. 58. № 2. P. 266
Benderskiy L.A., Lyubimov D.A., Terekhova A.A. Use of the RANS/ILES method to study the efficiency of synthetic jet application for flow control in an S-shaped intake integrated with an airframe, High Temp., 2020. V. 58. № 2. P. 266