Abstract
The main objective of the present work is to study the effect of an external store on a subsonic fighter aircraft. Generally most modern fighter aircrafts are designed with an external store installation. In this study, a subsonic fighter aircraft model has been manufactured using a computer numerical control machine for the purpose of studying the effect of the aerodynamic interference of the external store on the flow around the aircraft wing. A computational fluid dynamic (CFD) simulation was also carried out on the same configuration. Both the CFD and the wind tunnel testing were carried out at a Reynolds number 1.86×105 to ensure that the aerodynamic characteristic can certify that the aircraft will not be face any difficulties in its stability and controllability. Both the experiments and the simulation were carried out at the same Reynolds number in order to verify each other. In the CFD simulation, a commercial CFD code was used to simulate the interference and aerodynamic characteristics of the model. Subsequently, the model together with an external store was tested in a low speed wind tunnel with a test section sized 0.45 m×0.45 m. Measured and computed results for the two-dimensional pressure distribution were satisfactorily comparable. There is only a 19% deviation between pressure distribution measured in wind tunnel testing and the result predicted by the CFD. The result shows that the effect of the external storage is only significant on the lower surface of the wing and almost negligible on the upper surface of the wing. Aerodynamic interference due to the external store was most evident on the lower surface of the wing and almost negligible on the upper surface at a low angle of attack. In addition, the area of influence on the wing surface by the store interference increased as the airspeed increased.
Highlights
Fighter aircraft are mostly designed to carry stores such as a launcher or an external tank under the wing
From these results it was found that at station 1 the difference in pressure coefficient is only 3 % on the upper surface of the wing compared to the lower surface, due to the external store installations
Station 2 and 3 indicate the same phenomenon and that there is a small difference in pressure distribution on the upper surface
Summary
Fighter aircraft are mostly designed to carry stores such as a launcher or an external tank under the wing When these stores are installed, the flow on its surrounding components such as the control surfaces can be considerably changed. This may introduce several aerodynamic interference characteristics such as changes in aerodynamic force, increase in turbulence and possibly flow separation. Investigations of the aerodynamic characteristics in the external store clearance program usually involve a complex flow field study with multi component interferences. Flow of such a nature is usually investigated through wind tunnel testing and empirical methods
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