High-frequency visualization of flexible structures using an event-triggered camera: multiple flapping membranes

Lyu, Zhen; Cai, Weiwei; Liu, Yingzheng

doi:10.1088/1361-6501/ad25da

Meas. Sci. Technol.

2024

DOI: 10.1088/1361-6501/ad25da

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High-frequency visualization of flexible structures using an event-triggered camera: multiple flapping membranes

Zhen Lyu,

Weiwei Cai,

Yingzheng Liu

Abstract: Optical measurements of fluid–structure interaction (FSI) usually require high-speed imaging techniques. Traditional high-speed cameras are expensive and cannot record data continuously for long periods. An inexpensive and high-frequency measurement method that utilizes an event-triggered camera and a strobe laser is proposed in this paper. In this method, the k-means clustering technique was first employed to determine the precise time window in which to reconstruct frames from event data. Then, a Kalman filt… Show more

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2024

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Cited by 3 publications

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Flow-induced oscillations of an S-shaped buckled flexible filament

Chen,

Liu,

Sung

2024

J. Fluid Mech.

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The flow-induced oscillation of an S-shaped buckled flexible filament was explored using the penalty immersed boundary method. As the length and bending rigidity of the filament were varied, three distinct modes emerged: the equilibrium mode, streamwise oscillation (SO) mode and transverse oscillation (TO) mode. A transition region between the SO and TO modes was identified. Notably, the filament exhibited a 3P wake pattern under SO and a 2S wake pattern under TO. The former was induced by fluid–elastic instability, while the latter was attributed to vortex-induced oscillation. The interaction between the filament's motion and vortex shedding was examined for both modes. To elucidate the disparity between the TO of the S-shaped buckled filament and snap-through oscillation (STO), a ball-on-a-hill analogy was introduced. The performance of energy harvesting was evaluated using metrics including the elastic energy and power coefficient. The TO mode was found to show significantly higher energy harvesting performance than the SO and STO modes. The majority of the strain energy was concentrated at the upper and lower midpoints of the filament.

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Flow-induced oscillations of an S-shaped buckled flexible filament

Chen,

Liu,

Sung

2024

J. Fluid Mech.

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An event-triggered background-oriented schlieren technique combined with dynamic projection using dynamic mirror device

Lyu,

Cai,

Liu

2024

Meas. Sci. Technol.

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This paper reports a high-frequency event-triggered background-oriented schlieren (BOS) technique using a combination of an event-triggered camera and dynamic projection. To combine the advantages of continuous and pulsed illumination for the event-triggered camera, a novel background pattern is first developed to incorporate static and dynamic textures generated through projection utilizing a dynamic mirror device (DMD). Then, a specific post-processing algorithm is proposed to reconstruct frames with high time accuracy from event data. This technique allows for the continuous observation and capturing of flows at 4000 frames per second (FPS) with a very low cost, breaking through the short operating times of current high-frame-rate BOS. Moreover, the proposed BOS technique can visualize the flow in real-time with high temporal accuracy, a capability that is challenging to achieve with traditional BOS. To examine the proposed technique, BOS experiments were conducted on a sweeping jet actuator with various inlet pressure. The sweeping dynamics and the start-up process of the sweeping jet at various inlet pressure were visualized and investigated. It is found that the proposed event-triggered BOS can continuously visualize and record the jet flow at a resolution of 1280 × 720 pixels with an equivalent frame rate of up to 4000 FPS. The oscillation frequency of the sweeping jet was found to increase linearly with increasing inlet pressure. It reaches 117.2 Hz at an inlet pressure of 0.5 Mpa. Within the first ten milliseconds or so of start-up, the shape of the sweep was found to be symmetrical. Within the next hundred milliseconds, the jet commences to sweep and saturates. The start-up time of the sweeping jet was quantitatively measured and was observed to decrease with increased inlet pressures.

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Self-exploring automated experiments for discovery, optimization, and control of unsteady vortex-dominated flow phenomena

Mulleners

2024

Phys. Rev. Fluids

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Typical unsteady vortex-dominated flows like those involved in bio-inspired propulsion, airfoil separation, bluff body wakes, and vortex-induced vibrations can be prohibitively expensive to simulate and impossible to measure comprehensively. These examples are governed by nonlinear interactions, and often involve moving boundaries, high-dimensional parameter spaces, and multiscale flow structures. The classical way to get around these challenges has been to reduce the experimental complexity by using canonical motions or simplified unsteady inflow conditions. A paradigm shift is emerging in the form of self-exploring automated experiments that combine the automation of the experimental pipeline with data-science tools to increase experimental throughput and expedite scientific discovery. Such automated experiments can explore and exploit higher-dimensional parameter spaces and cover more realistic and technically relevant unsteady conditions compared to what is traditionally feasible with supervised canonical experiments. This alternative approach can yield robust and generalizable models and control solutions, as well as the discovery of rare and extreme events. Here, we provide a perspective on the transformative potential of self-exploring automated experiments for the discovery, optimization, and control of unsteady vortex-dominated flow phenomena. Published by the American Physical Society 2024

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High-frequency visualization of flexible structures using an event-triggered camera: multiple flapping membranes

Cited by 3 publications

References 37 publications

Flow-induced oscillations of an S-shaped buckled flexible filament

Flow-induced oscillations of an S-shaped buckled flexible filament

An event-triggered background-oriented schlieren technique combined with dynamic projection using dynamic mirror device

Self-exploring automated experiments for discovery, optimization, and control of unsteady vortex-dominated flow phenomena

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