Numerical Simulation on Cavity Evolution During High-speed Droplets Impingement on the Wall

Wang Xia Wu; Gao Ming Xiang; Bing Wang

Numerical Simulation on Cavity Evolution During High-speed Droplets Impingement on the Wall

Wang Xia Wu, Gao Ming Xiang, Bing Wang^*

^*Corresponding author for this work

Tsinghua University

Research output: Contribution to journal › Article › peer-review

Abstract

In this work, a numerical investigation of high-speed droplet impingement on solid wall was carried out based on the compressible two-phase flow model considering the instantaneous phase transition procedure. The results showed that a series of flow phenomena, including the impinging water hammer shock, the reflected rarefaction waves, and the cavity inception as well as its evolution, were well consistent with the experimental results of high-speed (110 m/s) droplet impingement. In addition, the droplet of higher initial speed (150 m/s) was further simulated to investigate the inuence of initial impinging speed on the cavity evolution inside a droplet.

Original language	English
Pages (from-to)	2444-2447
Number of pages	4
Journal	Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics
Volume	39
Issue number	11
Publication status	Published - 1 Nov 2018
Externally published	Yes

Keywords

Cavity inception
Collapse
Droplet impingement
High-speed
Shock wave

Cite this

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title = "Numerical Simulation on Cavity Evolution During High-speed Droplets Impingement on the Wall",

abstract = "In this work, a numerical investigation of high-speed droplet impingement on solid wall was carried out based on the compressible two-phase flow model considering the instantaneous phase transition procedure. The results showed that a series of flow phenomena, including the impinging water hammer shock, the reflected rarefaction waves, and the cavity inception as well as its evolution, were well consistent with the experimental results of high-speed (110 m/s) droplet impingement. In addition, the droplet of higher initial speed (150 m/s) was further simulated to investigate the inuence of initial impinging speed on the cavity evolution inside a droplet.",

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AU - Wu, Wang Xia

AU - Xiang, Gao Ming

AU - Wang, Bing

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N2 - In this work, a numerical investigation of high-speed droplet impingement on solid wall was carried out based on the compressible two-phase flow model considering the instantaneous phase transition procedure. The results showed that a series of flow phenomena, including the impinging water hammer shock, the reflected rarefaction waves, and the cavity inception as well as its evolution, were well consistent with the experimental results of high-speed (110 m/s) droplet impingement. In addition, the droplet of higher initial speed (150 m/s) was further simulated to investigate the inuence of initial impinging speed on the cavity evolution inside a droplet.

AB - In this work, a numerical investigation of high-speed droplet impingement on solid wall was carried out based on the compressible two-phase flow model considering the instantaneous phase transition procedure. The results showed that a series of flow phenomena, including the impinging water hammer shock, the reflected rarefaction waves, and the cavity inception as well as its evolution, were well consistent with the experimental results of high-speed (110 m/s) droplet impingement. In addition, the droplet of higher initial speed (150 m/s) was further simulated to investigate the inuence of initial impinging speed on the cavity evolution inside a droplet.

KW - Cavity inception

KW - Collapse

KW - Droplet impingement

KW - High-speed

KW - Shock wave

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JF - Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics

IS - 11

ER -

Numerical Simulation on Cavity Evolution During High-speed Droplets Impingement on the Wall

Abstract

Keywords

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