Investigation of the Jet Characteristics and Pulse Mechanism of Self-Excited Oscillating Pulsed Jet Nozzle

Zhang, Si; Fu, Bishi; Sun, Lin

doi:10.3390/pr9081423

Cited by 10 publications

(4 citation statements)

References 21 publications

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“…It enhances the effectiveness of the jet by utilizing the strong impact force generated when a bubble ruptures, and solves engineering problems by utilizing the "cavitation effect" caused by bubble collapse. Practice has proved that cavitation jet has better cleaning and cutting effects than ordinary pure water jet under the premise of consistent flow rate and pumping pressure, and has been applied to deep water cutting, nuclear reactor cleaning and aerospace fields [16]. Cavitation nozzles are divided into shear type and oscillating type.…”

Section: Cavitation Water Jetsmentioning

confidence: 99%

Research Status and Development Trend of High-Pressure Water Jet Nozzle

Niu,

Hou,

Lei

et al. 2024

Preprint

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Abstract:High-pressure water jet technology has received extensive attention and application due to its high efficiency and environmental protection characteristics. The high-pressure water jet nozzle is its core component, and the research on the high-pressure water jet nozzle is conducive to improving the jet performance and improving the jet efficiency. This paper introduces the characteristics of water jet and the working principle of pure water jet, abrasive water jet, pulsed water jet and cavitation water jet, reviews the theoretical analysis and experiment of the predecessor's nozzle, briefly explains the application of high-pressure water jet and looks forward to the development trend of this technology.

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Section: Cavitation Water Jetsmentioning

confidence: 99%

Research Status and Development Trend of High-Pressure Water Jet Nozzle

Niu,

Hou,

Lei

et al. 2024

Preprint

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“…Optimizing cleaning performance of reactors seems to be as important as process optimization. Therefore, Zhang et al [9] studied the structure of self-excited oscillation pulsed jet nozzles (SOPJNs) to optimize cleaning and energy efficacies. The jet performance of a SOPJN was investigated and modeled based on computational fluid dynamics considering a large eddy simulation and homogeneous cavitation.…”

Section: Processes Optimizationmentioning

confidence: 99%

Special Issue on “Processing and Conversion of Oil and Gas: Modeling, Control, Simulation and Optimization”

Assaf

Daccache

2023

Processes

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“…The treatment of transient oscillatory choked flow through a nozzle in the literature focuses primarily on rocket propulsion nozzle improvements. 6,7 Literature focuses on low frequencies, while this research will address the gap for transient behavior of high-frequency oscillatory flow. This investigation focuses on determining and controlling oscillatory air flow properties through area variation and examination of a selected fluid's contribution to the choked flow equation.…”

Section: Introductionmentioning

confidence: 99%

“…In self-excited oscillation pulse jet nozzles, Zhang found a relationship between the increase of the inlet and cavity diameters and increased cavity length resulting in a decrease in oscillation frequency. 6 The study by Bulat also focuses on a self-oscillating process in low-frequency ranges. 7 Speakers are a non-contact method of actuation and researchers applied them as a method of active control for avoiding flutter in fan blades, but the focus here is on a valve application that modulates mass flow.…”

Section: Introductionmentioning

confidence: 99%

Piezoelectric ring-stack actuator design for high-frequency valve

Giannuzzi

Rodriguez

Pietrowski

et al. 2023

Active and Passive Smart Structures and Integrated Systems XVII

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This paper presents a fundamental non-contact valve design developed by integrating a ring-stack piezoelectric actuator into a converging nozzle design to impart harmonic flow. The paper also outlines the governing equations as well as limiting factors that constrain the design and operating performance. The converging nozzle design achieves choked flow at the valve exit when the nozzle is fully open. Valve actuation centers around piezoelectric ring stacks: the piezoelectric stack is fixed within the valve on one end to the base plate and has a conical nozzle tip attached to the opposite end of the stack. When the stack fully displaces to its maximum length, the nozzle tip is in the closed position where minimal flow passes through the valve exit. The flow area between the nozzle tip and casing wall achieves maximum mass flow rate when the piezoelectric stack is at minimum length. The change in flow cross-sectional area due to the piezoelectric stack displacement generates a change in mass flow rate through the valve. Due to the small-scale displacement of piezoelectric stacks, different angles of the nozzle cone and casing are required to achieve a greater desired mass flow rate. This model is adjustable to accommodate various piezoelectric stack sizes and displacements or to alter the exit mass flow rate to best suit a particular application.

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Investigation of the Jet Characteristics and Pulse Mechanism of Self-Excited Oscillating Pulsed Jet Nozzle

Cited by 10 publications

References 21 publications

Research Status and Development Trend of High-Pressure Water Jet Nozzle

Research Status and Development Trend of High-Pressure Water Jet Nozzle

Special Issue on “Processing and Conversion of Oil and Gas: Modeling, Control, Simulation and Optimization”

Piezoelectric ring-stack actuator design for high-frequency valve

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