Spatial distribution characteristics of splashing rainfall caused by nappe flow impingement on a plunge pool

Sun, Qian; Yuan, Hao; Wei, Wangru; Hu, Lan; Xie, Chunhang

doi:10.3389/fenvs.2023.1096960

Front. Environ. Sci.

2023

DOI: 10.3389/fenvs.2023.1096960

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Spatial distribution characteristics of splashing rainfall caused by nappe flow impingement on a plunge pool

Qian Sun

Hao Yuan²,

Wangru Wei³

et al.

Abstract: Splashing is the main atomization source for a jet impinging on a liquid layer. Increased understanding of splashing rainfall characteristics can help to reduce the hazard of flood discharge atomization in hydraulic engineering. In this study, the spatial distribution of splashing rainfall caused by a nappe flow impinging on a downstream water cushion was experimentally investigated. Effects of the main hydraulic factors of impingement velocity, unit discharge, and water-cushion depth on splashing were investi… Show more

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2024

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Cited by 2 publications

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A two-dimensional model for jet splashing rainfall intensity distribution in dam discharge based on laboratory experiments

Sun,

Yuan,

Wei

et al. 2024

European Journal of Mechanics - B/Fluids

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A two-dimensional model for jet splashing rainfall intensity distribution in dam discharge based on laboratory experiments

Sun,

Yuan,

Wei

et al. 2024

European Journal of Mechanics - B/Fluids

View full text Add to dashboard Cite

A preliminary experimental study on atomization rainfall properties by two-jet collision in high dam discharge

Yuan,

Sun,

et al. 2024

Physics of Fluids

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The energy dissipation method commonly employed for flood discharge in high dams involves the collision of jets in the air. This approach frequently results in the issue of flood discharge atomization. This study experimentally investigates the rainfall characteristics resulting from the interaction between a surface-orifice jet and a deep-orifice jet during high dam discharges. The research explores various flow rate ratios and collision angles of the two jets, focusing on the spatial distribution of rainfall intensity, as well as the size and velocity of droplets post-collision. The findings revealed that the rainfall distribution on the horizontal plane resembles a mushroom cloud, with the maximum rainfall intensity at the center. Increasing the collision angle between the jets significantly increases the dispersion range of atomized rainfall, while the maximum intensity decreases. Additionally, as the jet flow rate ratio increases, the dispersal range of rainfall initially expands before stabilizing, with relatively minor variations in intensity. Following a two-jet collision, the trajectory of the jet was derived, and the associated parameters were determined using experimental data. The probability distributions for droplet size and velocity closely approximated Gaussian distributions. The study also observed that the number of droplets per unit time, along with the ensemble-averaged diameter and velocity, initially increases and then decreases longitudinally. Meanwhile, the number of droplets per unit time gradually decreases in the lateral direction, while the ensemble-averaged diameter and velocity remain relatively constant. Furthermore, with an increase in the jet flow rate ratio, both the ensemble-averaged diameter and velocity of droplets follow a pattern of initial increase and subsequent decrease, while the collision angle has no significant impact.

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Spatial distribution characteristics of splashing rainfall caused by nappe flow impingement on a plunge pool

Cited by 2 publications

References 31 publications

A two-dimensional model for jet splashing rainfall intensity distribution in dam discharge based on laboratory experiments

A two-dimensional model for jet splashing rainfall intensity distribution in dam discharge based on laboratory experiments

A preliminary experimental study on atomization rainfall properties by two-jet collision in high dam discharge

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