Aerodynamic performance and analysis of a hovering micro-scale shrouded rotor in confined environment

Han, Han; Chen, Xiang; Xu, Bugong; Yu, Yifeng

doi:10.1177/1687814018823327

Cited by 18 publications

(11 citation statements)

References 32 publications

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“…The form of the fitting model is a Â ðz=RÞ Àb þ c, and it is similar to Han et al 22 and Jardin et al 23 Analysis of flow field mechanism for ground effect…”

Section: Analysis Of Aerodynamic Performance Considering Ground Effectmentioning

confidence: 84%

Aerodynamic analysis and control for a novel coaxial ducted fan aerial robot in ground effect

Chen

et al. 2020

International Journal of Advanced Robotic Systems

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Modeling and control for a novel coaxial ducted fan aerial robot in-ground-effect is presented in this article. Based on experiments using the ducted fan bench test, the fitting curve of the ground effect thrust of the ducted fan aerial robot at different heights is obtained. In addition, the flow field simulation results of the prototype with ground effect at different heights can be obtained using computational fluid dynamics software. A simplified model of the prototype for control can be designed based on several reasonable hypotheses that are established using blade element and momentum theory. To compensate for the disturbance associated with ground effect, a nonlinear disturbance observer is designed to estimate the disturbance, and control structure of the closed-loop system is composed of a nonlinear disturbance observer combined with a double-loop proportion–integration–differentiation controller. The results of several numerical simulations and experiments demonstrate the effectiveness of this controller structure. The performances of tracking trajectory and system stability are improved significantly, compared to the situation that the ground effect is not compensated for.

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“…The form of the fitting model is a Â ðz=RÞ Àb þ c, and it is similar to Han et al 22 and Jardin et al 23 Analysis of flow field mechanism for ground effect…”

Section: Analysis Of Aerodynamic Performance Considering Ground Effectmentioning

confidence: 84%

Aerodynamic analysis and control for a novel coaxial ducted fan aerial robot in ground effect

Chen

et al. 2020

International Journal of Advanced Robotic Systems

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“…In previous research, we have done a series of relevant studies on the prototype [ 31 , 32 , 33 , 34 , 35 ]. Through the continuous optimization of the prototype structure and design, the latest prototype with the manipulation is shown in Figure 2 .…”

Section: The Aerodynamic Influence Of Corner Effect On the Prototymentioning

confidence: 99%

“…Figure 3 a shows that when the ducted fan operates under the ground effect, the airflow that diffuses outward from the duct interacts with the airflow that returns from the ground to produce a ground vortex under the duct. According to previous research [ 34 ], generally speaking, when the ducted fan is further from the ground, the degrees of ground vortexes will decrease, and when the ducted fan is closer to the ground, the degrees of ground vortexes will increase, which is not conducive to the stable hovering of the prototype at a given altitude. h is the distance from the lower surface of the upper paddle hub to the ground, d is the distance from the outer lip of the duct to the wall, X is the radial distance of the duct, and r is the rotor radius.…”

Section: The Aerodynamic Influence Of Corner Effect On the Prototymentioning

confidence: 99%

Modeling of a Novel Coaxial Ducted Fan Aerial Robot Combined with Corner Environment by Using Artificial Neural Network

Chen

et al. 2020

Sensors

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A novel coaxial ducted fan aerial robot with a manipulator is proposed which can achieve some hover operation tasks in a corner environment, such as switching on and off a wall-attached button on the corner. In order to study the aerodynamic interference between the prototype and the environment when the aerial robot is hovering in the corner environment, a method for the comprehensive modeling of the prototype and corner environment based on the artificial neural network is presented. By using the CFD simulation software, the flow field of the prototype at different positions with the corner effect is analyzed. After determining the input, output and structure of the neural network model, the Adam and gradient descent algorithms are selected as the neural network training algorithms, respectively. In addition, to optimize the initial weights and biases of the neural network model, the genetic algorithm is precisely used. The three-dimensional prediction surfaces generated by the three methods of the neural network, kriging surface and the polynomial fitting are compared. The results show that the neural network has high prediction accuracy, and can be applied to the comprehensive modeling of the prototype and the corner environment.

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“…Extensive research efforts have focused on optimizing ducted fan efficiency and stability through flow control techniques and innovative configurations. 8 This emphasizes the critical interplay between propeller design and external environmental conditions.…”

Section: Introductionmentioning

confidence: 99%

The impact of curved-tip propeller geometry on hovering drone performance for air quality monitoring

Chakchouk,

El Hami,

Dahoo

et al. 2023

Advances in Mechanical Engineering

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The success or failure of a drone mission depend on several elements, including the drone’s mass and payload, the surrounding environment, the battery’s state, and the propulsion system’s performance. Several studies have been undertaken addressing the propeller performance of this final component, particularly for fixed-wing or quad copter drones with ducted propellers. However, the shape of propeller blades used on tiny civil drones has not drawn as much attention. In this research work, the performance characteristics of a 10 × 4.7-inch curved tip propeller were explored, with the Advanced Precision Composite drone propeller serving as a design reference. This study seeks an alternative to ducted propellers when mass or size limitations prevent their use. The Computational Fluid Dynamics model was confirmed by comparing simulation results to the experimental propeller data source established by the University of Illinois at Urbana-Champaign, starting with a standard type propeller and using thrust coefficient as the key performance indicator. Moreover, the data analysis for the bended tip propeller replicating the well-established model, revealed the benefits as well as the drawbacks of such propellers on the mission profile and the battery lifespan of a quad copter Unmanned Air Vehicle.

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Aerodynamic performance and analysis of a hovering micro-scale shrouded rotor in confined environment

Cited by 18 publications

References 32 publications

Aerodynamic analysis and control for a novel coaxial ducted fan aerial robot in ground effect

Aerodynamic analysis and control for a novel coaxial ducted fan aerial robot in ground effect

Modeling of a Novel Coaxial Ducted Fan Aerial Robot Combined with Corner Environment by Using Artificial Neural Network

The impact of curved-tip propeller geometry on hovering drone performance for air quality monitoring

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