CFD-BASED DYNAMIC STABILITY DERIVATIVE PREDICTION OF BIPLANE TAILSITTER UAV WITH LINEAR AND HARMONIC MOTION MODELS
This undergraduate thesis implements the application of a computational fluid dynamics (CFD) approach to predict the static and dynamic stability derivatives at the lateral-directional direction of the Fast and Efficient Autonomous Delivery (FEAD) UAV, a Quadrotor Biplane Tailsitter UAV. This nov...
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| 格式: | Final Project |
| 語言: | Indonesia |
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| 在線閱讀: | https://digilib.itb.ac.id/gdl/view/73636 |
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| 機構: | Institut Teknologi Bandung |
| 語言: | Indonesia |
| 總結: | This undergraduate thesis implements the application of a computational fluid
dynamics (CFD) approach to predict the static and dynamic stability derivatives
at the lateral-directional direction of the Fast and Efficient Autonomous
Delivery (FEAD) UAV, a Quadrotor Biplane Tailsitter UAV. This novel airframe
configuration is a suitable alternative for last-mile delivery missions in
urban areas. The complex geometry design of the FEAD UAV has prompted
further study of the stability derivative analysis. The versatility of the landing
gear system as vertical tailplane at fixed-wing mode and landing gear at rotary
wing mode must satisfy the aerodynamic and structural requirements at once.
Aiming to obtain the stability derivatives, the unsteady aerodynamic simulation
by applying reduced frequency is introduced in linear and harmonic forced
motion models that give harmonic historical data of force and moment over
time. For the two motion models, this study utilizes the triangle wave function
and sinusoidal wave harmonic motion models. Then, the stability derivatives
are obtained through the historical data process of the force and moments,
utilizing the Fourier analysis. This study also investigates the comparison of
stability derivatives between the triangle wave and the sinusoidal wave function
motion models. This study also conducts parametric study of the stability
derivative of the FEAD UAV are conducted by altering the reduced frequency. |
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