Comparative Analysis of the Hydrodynamic Performance of Dual Flapping Foils with In-Phase and Out-of-Phase Oscillations

Abstract: In the context of the plain river network, conventional water pumps suffer several drawbacks, including inadequate efficiency, poor security, and costly installation costs. In order to improve the hydrodynamic insufficiency problem and enhance the hydrodynamic performance and applicability of flapping hydrofoils, this paper proposes a bionic pumping device based on dual flapping foils. Based on the finite volume method and overlapping grid technology, the numerical simulation and experimental verification of t… Show more

“…However, the performance of conventional pump gate devices is constrained by the impeller, leading to subpar performance and common issues such as severe cavitation [5][6][7], excessive vibration [8,9], and low efficiency [10]. According to a study, the flapping hydrofoil bionic pump water-pushing mechanism is highly beneficial for enhancing the hydrodynamics of tiny rivers, particularly in ultra-low-head conditions (H < 1 m) [11].…”

Study on the Hydrodynamic Performance of Swing-Type Flapping Hydrofoil Bionic Pumps Affected by Foil Camber

“…However, the performance of conventional pump gate devices is constrained by the impeller, leading to subpar performance and common issues such as severe cavitation [5][6][7], excessive vibration [8,9], and low efficiency [10]. According to a study, the flapping hydrofoil bionic pump water-pushing mechanism is highly beneficial for enhancing the hydrodynamics of tiny rivers, particularly in ultra-low-head conditions (H < 1 m) [11].…”

Study on the Hydrodynamic Performance of Swing-Type Flapping Hydrofoil Bionic Pumps Affected by Foil Camber