Your search keyword '"tangential blowing"' showing total 7 results

1. Numerical Study of Flow Control to Increase Vertical Tail Effectiveness of an Aircraft by Tangential Blowing

Author

Taleghani, Arash Shams, Hesabi, Ashkan, and Esfahanian, Vahid

Published

2024

2. Tangential leading edge blowing for flow control on non-slender delta wings

Author

Chard, James, Crowther, William, and Smith, Katharine

Subjects

629.13, Leading edge separation, Delta wing, UCAV, Tangential blowing, Swept wing, Flow control, Leading edge blowing, Fluidic control

Abstract

In the military arena there is an increase in demand for Low Observable (LO) flight vehicles. This drive for low observability imposes limits on Leading Edge (LE) sweep angles and prohibits the use of a tailplane/fin resulting in unconventional configurations; a typical example of which are Unmanned Combat Aerial Vehicles (UCAVs). This class of aircraft poses stability and control problems due to the early onset of flow separation. The focus of this project is on the on the use of Tangential Leading Edge Blowing (TLEB) as a means of separation suppression on such vehicles. This project is unique in that the TLEB slot is positioned on the wing lower surface facing the oncoming freestream. Also, the model in this project is representative of the outboard panel of a UCAV wing, a geometry on which TLEB has not been explored in the past. A swept wing model (LE sweep = 47 degrees, AR = 3) was designed. The model has a TLEB nozzle with a slot on the lower surface at approx. 1% yawed chord that spans 0.58 m (approx. 70% LE length). Baseline wing characteristics were obtained with the full slot exposed. The wing showed a variation in pitch between CL = 0 and 0.6 which from oil flow visualisation is believed to be due to laminar separation. At CL = 0.6 there is a positive pitch break which flow visualisation suggests is due to the occurrence of a LE vortex. Sensitivity studies for slot configuration, Re number and transition fixing were carried out. The blowing rates 0.0025, 0.005, 0.025, 0.05 were tested for two slot lengths; one full span (0.58 m) and another third span positioned at the midpoint of the full slot. All blowing rates show some suppression of the LE vortex and therefore reduction in severity of the pitch break at CL = 0.6. High blowing rates produce a negative shift in CM, which CFD suggests is due to a large amount of suction produced on the lower wing surface adjacent to the slot exit. This means the available trim power is less than for the lower blowing rates. Wool tuft results for high blowing rates from the middle slot show an increase in streamwise flow at the TE suggesting TLEB is capable of improving the effectiveness of TE devices. The effectiveness of TLEB at low blowing rates has been shown to be high compared to that found in literature. A 1st order analysis of the impact of TLEB on a full scale system shows realistic options.

Published

2018

3. Numerical investigation of tangential blowing over the rudder of a vertical tailplane

Author

Gebhardt, A.

Published

2020

4. Numerical investigation of slot variations on the efficiency of tangential blowing at a vertical tailplane with infinite span

Author

Gebhardt, A. and Kirz, J.

Published

2018

5. Distinctive features of burning of a solid biofuel in a cyclone-bed furnace.

Author

Pitsukha, E., Teplitskii, Yu., and Borodulya, V.

Subjects

*BIOMASS energy, *AFTERBURNERS, *COMBUSTION chambers, *AIR heaters, *CARBON monoxide, *AERODYNAMIC load, *PEAT, *BRIQUETS, *WASTE gases, *WOOD chips

Abstract

A study has been made of the distinctive features of burning of a solid biofuel (wood, peat) in a cyclone-bed furnace. The limiting values of the moisture of wood chips as received and of the mass content of milled peat in the chip-milled peat mixture, at which the regime of its combustion is unstable, have been found. The temperature, velocity, and pressure distribution in the indicated furnace have been established. The dependences of the concentration of carbon and nitrogen monoxides on the excess air in exhaust gases in burning lump wood and crushed peat briquettes have been established. [ABSTRACT FROM AUTHOR]

Published

2012

6. Use of active control for elimination of flow separation with estimation of energy costs.

Author

Abzalilov, D., Valitov, R., and Il’inskii, N.

Abstract

Problems were posed and solved concerning the aerodynamic computation of the flow past an airfoil with an active boundary layer control device used to prevent flow separation. A moving wall, suction, or tangential blowing in the boundary layer was used as a flow control device. The turbulent boundary layer was computed by directly solving the boundary layer equations using an implicit difference scheme with adaptive grid generation and the determination of the computational domain size. A software code was developed, and numerical simulations were performed taking into account the energy costs related to the flow control device. The numerical results showed that the active flow control devices can be used to prevent flow separation. [ABSTRACT FROM AUTHOR]

Published

2009

7. Numerical Investigation of Tangential Blowing over the Rudder of a Vertical Tailplane

Author

Anna Gebhardt

Subjects

020301 aerospace & aeronautics, Jet (fluid), Vertical Tail, Tailplane, Materials science, Flow (psychology), Separation (aeronautics), Aerospace Engineering, Transportation, 02 engineering and technology, Rudder, Mechanics, Span (engineering), 01 natural sciences, VTP, 010305 fluids & plasmas, Sonic boom, AFC, 0203 mechanical engineering, tangential blowing, Active Flow Control, 0103 physical sciences, Mass flow rate, Transportflugzeuge, CFD

Abstract

Tangential blowing over the shoulder of a deflected rudder is applied on a vertical tailplane. For a large rudder deflection angle and without blowing the flow is mostly separated on the rudder. Three configurations are investigated in a numerical study with the aim to increase the side force coefficient. The first one is the baseline without blowing, the second one has a continuous full span slot and for the third one discrete slots are used. With sufficient blowing through the continuous slot the separation on the rudder can be removed completely while the separation extent is greatly reduced when using discrete slots. This is investigated for different sideslip angles. An approximately linear increase in the side force coefficient can be found until a sudden side force breakdown occurs. In a further study, the jet blowing velocity is varied. A smaller jet velocity leads to a smaller increase in the side force coefficient. Comparing the continuous and discrete slot configurations shows that for a similar increase in the side force coefficient a much smaller mass flow rate is needed for the discrete slots. However, for jet velocities below the sonic speed the increase in the side force coefficient is limited. It can only be increased by a larger slot extent in spanwise direction but this comes at the expense of an increase in the required mass flow rate.

Published

2018