The test and simulation modeling of micro scale solid particles fuel cloud dispersal under high dynamic

Jin Xin; Lou Wenzhong; Guo Mingru; Dai Ximing

doi:10.4028/www.scientific.net/KEM.645-646.942

The test and simulation modeling of micro scale solid particles fuel cloud dispersal under high dynamic

Jin Xin, Lou Wenzhong, Guo Mingru^*, Dai Ximing

^*Corresponding author for this work

Beijing Institute of Technology

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

Abstract

Cloud forming by solid explosive dispersal plays a decisive factor for twice-detonating FAE. The study of the flow field of internal cloud field can be more intuitive to understand the whole process of the formation of cloud diffusion, and it also has an important role to the delay time setting of secondary detonating fuze. Internal parameters of spreading cloud are difficult to obtain even through by the experiment method, but numerical analysis and simulations method can get the parameter. In this paper, we use experimental and simulation methods to study fuel dispersal process, aims to establish an effective and reliable mathematical models of cloud dispersal, and get the model data coinciding with the real situation.

Original language	English
Pages (from-to)	942-947
Number of pages	6
Journal	Key Engineering Materials
Volume	645
DOIs	https://doi.org/10.4028/www.scientific.net/KEM.645-646.942
Publication status	Published - 1 May 2015

Keywords

Cloud
Experiment
Fuel-air-explosive
MEMS sensor
Micro scale
Simulation modeling
Solid fuel dispersion
Test

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title = "The test and simulation modeling of micro scale solid particles fuel cloud dispersal under high dynamic",

abstract = "Cloud forming by solid explosive dispersal plays a decisive factor for twice-detonating FAE. The study of the flow field of internal cloud field can be more intuitive to understand the whole process of the formation of cloud diffusion, and it also has an important role to the delay time setting of secondary detonating fuze. Internal parameters of spreading cloud are difficult to obtain even through by the experiment method, but numerical analysis and simulations method can get the parameter. In this paper, we use experimental and simulation methods to study fuel dispersal process, aims to establish an effective and reliable mathematical models of cloud dispersal, and get the model data coinciding with the real situation.",

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AU - Xin, Jin

AU - Wenzhong, Lou

AU - Mingru, Guo

AU - Ximing, Dai

N1 - Publisher Copyright: © (2015) Trans Tech Publications, Switzerland.

PY - 2015/5/1

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N2 - Cloud forming by solid explosive dispersal plays a decisive factor for twice-detonating FAE. The study of the flow field of internal cloud field can be more intuitive to understand the whole process of the formation of cloud diffusion, and it also has an important role to the delay time setting of secondary detonating fuze. Internal parameters of spreading cloud are difficult to obtain even through by the experiment method, but numerical analysis and simulations method can get the parameter. In this paper, we use experimental and simulation methods to study fuel dispersal process, aims to establish an effective and reliable mathematical models of cloud dispersal, and get the model data coinciding with the real situation.

AB - Cloud forming by solid explosive dispersal plays a decisive factor for twice-detonating FAE. The study of the flow field of internal cloud field can be more intuitive to understand the whole process of the formation of cloud diffusion, and it also has an important role to the delay time setting of secondary detonating fuze. Internal parameters of spreading cloud are difficult to obtain even through by the experiment method, but numerical analysis and simulations method can get the parameter. In this paper, we use experimental and simulation methods to study fuel dispersal process, aims to establish an effective and reliable mathematical models of cloud dispersal, and get the model data coinciding with the real situation.

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KW - Fuel-air-explosive

KW - MEMS sensor

KW - Micro scale

KW - Simulation modeling

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The test and simulation modeling of micro scale solid particles fuel cloud dispersal under high dynamic

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Keywords

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