Research on Erosion Effect of Various Submerged Cavitating Jet Nozzles and Design of Self-Rotating Cleaning Device

Huang, Siwen; Huang, Jiangping; He, Kai

doi:10.3390/app14041433

Applied Sciences

2024

DOI: 10.3390/app14041433

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Research on Erosion Effect of Various Submerged Cavitating Jet Nozzles and Design of Self-Rotating Cleaning Device

Siwen Huang,

Jiangping Huang,

Kai He

Abstract: Submerged cavitating jets can effectively remove marine organisms from ship hulls without damaging the surface paint. To enhance the cleaning efficiency of cavitating jets, the selection of an appropriate nozzle structure and the design of an efficient cleaning device are crucial. In this study, the submerged cavitation effect of different nozzles was analyzed by numerical simulation. The actual cleaning efficacy of the nozzles was confirmed through erosion experiments as well. The simulation and experiment sh… Show more

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Cited by 2 publications

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Experimental and numerical investigation on the cavitation erosion effect and resonance effect of submerged water jets

Hu,

Kang,

Shi

et al. 2024

Ships and Offshore Structures

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Experimental and numerical investigation on the cavitation erosion effect and resonance effect of submerged water jets

Hu,

Kang,

Shi

et al. 2024

Ships and Offshore Structures

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Shedding of Cavitation Clouds in an Orifice Nozzle

Onishi,

Li,

et al. 2024

Fluids

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Focused on the unsteady property of a cavitating water jet issuing from an orifice nozzle in a submerged condition, this paper presents a fundamental investigation of the periodicity of cloud shedding and the mechanism of cavitation cloud formation and release by combining the use of high-speed camera observation and flow simulation methods. The pattern of cavitation cloud shedding is evaluated by analyzing sequence images from a high-speed camera, and the mechanism of cloud formation and release is further examined by comparing the results of flow visualization and numerical simulation. It is revealed that one pair of ring-like clouds consisting of a leading cloud and a subsequent cloud is successively shed downstream, and this process is periodically repeated. The leading cloud is principally split by a shear vortex flow along the nozzle exit wall, and the subsequent cloud is detached by a re-entrant jet generated while a fully extended cavity breaks off. The subsequent cavitation cloud catches the leading one, and they coalesce over the range of x/d≈1.8~2.5. Cavitation clouds shed downstream from the nozzle at two dominant frequencies. The Strouhal number of the leading cavitation cloud shedding varies from 0.21 to 0.29, corresponding to the injection pressure. The mass flow rate coefficient fluctuates within the range of 0.59~0.66 at the same frequency as the leading cloud shedding under the effect of cavitation.

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Research on Erosion Effect of Various Submerged Cavitating Jet Nozzles and Design of Self-Rotating Cleaning Device

Cited by 2 publications

References 46 publications

Experimental and numerical investigation on the cavitation erosion effect and resonance effect of submerged water jets

Experimental and numerical investigation on the cavitation erosion effect and resonance effect of submerged water jets

Shedding of Cavitation Clouds in an Orifice Nozzle

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