Switchblade 300 UAV FSI Analysis: CFD Simulation by Ansys Fluent
$2,160.00 $864.00 HPC
- The problem numerically simulates a Switchblade UAV using ANSYS Fluent software.
- We design the 3-D model with the SpaceClaim software.
- We mesh the model with Ansys Meshing software. The element number equals 26,753,649 and their type is Tetrahedral.
- In this simulation, Dynamic Mesh is used for FSI modeling.
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Description
FSI Analysis: switchblade 300 UAV CFD Simulation Training
Introduction
FSI simulation involves the interaction between the fluid and the structure. If we only want to consider the effects of the fluid on the structure, we use one-way method, and if we want to consider the effect of the structure on the fluid in addition to the effect of the fluid on the structure, we use two-way method. In this simulation, we have performed a two-way simulation. Previously, we could only run the two-way method in Workbench, but now Fluent software also has this capability. However, if our simulation involves large displacements, it is better to use Workbench because Fluent is not able to accurately analyze large displacements.
The Switchblade 300 is a lightweight, single-person manned, drone manufactured by the American company Aerovironment, designed for precision beyond-line-of-sight (BLOS) attacks. The suicide drone deploys from a small launch tube (about 24 inches long) and unfolds its folding wings. Key conditions include an inlet velocity of 28 m/s and an angle of attack of 5 degrees. The Multiple Reference Frame (MRF) approach was employed to simulate the rotating rear blade at 5000 RPM.
The geometry of the present model is three-dimensional and has been designed using SpaceClaim software. We do the meshing of the present model with Ansys Meshing software. The mesh type is Tetrahedral, and the element number is 26,753,649.
Methodology
In this FSI study used a steady-state, pressure-based CFD simulation in ANSYS Fluent software to analyze the incompressible flow around a UAV and the fluid-structure interactions(FSI). The flow physics was modeled using the k-Ԑ Realizable turbulence model and a dynamic mesh was also used.
Results and Conclusion
According to the extracted contours, it is observed that, as expected, the greatest displacement occurs at the wing tips of the UAV and the greatest stress is at the wing-body connection.
It is also seen in the diagrams that the amount of displacement decreases from the wingtips to the fuselage junction and reaches zero at the fuselage. Although the fuselage displacement may sometimes not be zero, its amount is very small and is usually ignored. The two diagrams below are for the front and rear airfoils.
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