Experimental Studies of Shock Induced Particle Jetting

Kai Yuan Du; Kun Xue; Xiao Liang Shi

Experimental Studies of Shock Induced Particle Jetting

Kai Yuan Du, Kun Xue, Xiao Liang Shi

School of Mechatronical Engineering

Beijing Institute of Technology

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

Abstract

The dispersion of a cylindrical ring by a shock wave takes the shape of particle jets. Based on the quasi-two-dimensional experimental platform, the formation of particle jets in the inner surface of the particle ring is observed. It is found that the jets is generated by the inner surface of the particle ring and then develops to the outer surface. When the impulsive loads change, the shape and distribution of the jets change too. The number of early internal jets is basically the same. As the impulsive loads increase, the number of late internal jets decrease gradually. When the impulsive loads become greater, the distribution of particle jets will be more uneven, and the larger jets will merge the surrounding smaller ones during the dispersion of the particle ring, which leads to the decrease of the number of jets.

Original language	English
Pages (from-to)	82-85
Number of pages	4
Journal	Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
Volume	37
Publication status	Published - 1 Dec 2017

Keywords

Impulsive loads
Multiphase flows
Particle jets

Cite this

Du, K. Y., Xue, K., & Shi, X. L. (2017). Experimental Studies of Shock Induced Particle Jetting. Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology, 37, 82-85.

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N2 - The dispersion of a cylindrical ring by a shock wave takes the shape of particle jets. Based on the quasi-two-dimensional experimental platform, the formation of particle jets in the inner surface of the particle ring is observed. It is found that the jets is generated by the inner surface of the particle ring and then develops to the outer surface. When the impulsive loads change, the shape and distribution of the jets change too. The number of early internal jets is basically the same. As the impulsive loads increase, the number of late internal jets decrease gradually. When the impulsive loads become greater, the distribution of particle jets will be more uneven, and the larger jets will merge the surrounding smaller ones during the dispersion of the particle ring, which leads to the decrease of the number of jets.

AB - The dispersion of a cylindrical ring by a shock wave takes the shape of particle jets. Based on the quasi-two-dimensional experimental platform, the formation of particle jets in the inner surface of the particle ring is observed. It is found that the jets is generated by the inner surface of the particle ring and then develops to the outer surface. When the impulsive loads change, the shape and distribution of the jets change too. The number of early internal jets is basically the same. As the impulsive loads increase, the number of late internal jets decrease gradually. When the impulsive loads become greater, the distribution of particle jets will be more uneven, and the larger jets will merge the surrounding smaller ones during the dispersion of the particle ring, which leads to the decrease of the number of jets.

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Experimental Studies of Shock Induced Particle Jetting

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