Modeling of the unsteady aerodynamic force of turbine blades considering nonuniform vane pitch

Zhang, Weihao; Liao, Xiangli; Fan, Wenyi; Wang, Yufan; Mu, Yumo; Xin, Jianqiang

doi:10.1063/5.0188733

Physics of Fluids

2024

DOI: 10.1063/5.0188733

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Modeling of the unsteady aerodynamic force of turbine blades considering nonuniform vane pitch

Weihao Zhang,

Xiangli Liao,

Wenyi Fan

et al.

Abstract: The nonuniform vane spacing of a turbine is a crucial technique for reducing the unsteady aerodynamic excitation force of the downstream blades, but it still lacks a quick and accurate forecast approach for its suppression effect. Employing the rectangular wave, we propose a modeling strategy for the unsteady aerodynamic force of turbine blades and construct a fast prediction model (FPM) for the excitation force. The model takes into account the physical mechanism of wake and potential field variations induced… Show more

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Cited by 2 publications

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Pitch-Regulated Control Strategy for Coaxial Drone with Variable Rotor Space Ratio

Ke,

Zhao,

et al. 2024

Drones

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This study investigates the impact of rotor spacing on the aerodynamic performance of a coaxialcopter and promotes an innovative regulated control strategy for the coaxial drone. The present research introduces a coaxialcopter with variable rotor spacing, and employing finite element numerical simulations, we assess the aerodynamic behavior of this novel configuration. Through comprehensive measurements and analysis of its aerodynamic performance across varying rotor spacings from 0.1 R to 1 R, we validate the effectiveness of a rotor-spacing control strategy for enhancing takeoff maneuvers. The numerical simulation and experiment results reveal that the performance characteristics of both the upper and lower rotors converge toward that of a single rotor as the space ratio increases, along with a reduction in their thrust fluctuations and aerodynamic performance periodicity. Considering stable power consumption patterns and endurance performance, we analyzed the interrelations binding the pitch distance of the rotors, rotational speed, and pitch angle, vis à vis the thrust coefficient and power coefficient. Through the parameter optimization method, we demonstrate that adjusting rotor spacing offers a practical means to enhance payload capacity without increasing the power input, thereby improving efficiency, which validates the practicality and efficacy of the parameter optimization approach. Furthermore, optimizing rotor spacing for specific operational scenarios enhances overall aerodynamic performance, suggesting a viable flight control strategy for takeoff and landing conditions for coaxial drones.

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Pitch-Regulated Control Strategy for Coaxial Drone with Variable Rotor Space Ratio

Ke,

Zhao,

et al. 2024

Drones

View full text Add to dashboard Cite

show abstract

Evolution of turbine flow field and aerodynamic excitation force under rotating detonation environment

ZHANG,

LIAO,

et al. 2024

GTER

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Modeling of the unsteady aerodynamic force of turbine blades considering nonuniform vane pitch

Cited by 2 publications

References 18 publications

Pitch-Regulated Control Strategy for Coaxial Drone with Variable Rotor Space Ratio

Pitch-Regulated Control Strategy for Coaxial Drone with Variable Rotor Space Ratio

Evolution of turbine flow field and aerodynamic excitation force under rotating detonation environment

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