The time evolution of the size distribution of droplets effects on the thermal explosion of polydisperse fuel spray

Ophir Nave; Vladimir Gol'dshtein; Yaron Lehavi

doi:10.1016/j.apm.2011.07.057

The time evolution of the size distribution of droplets effects on the thermal explosion of polydisperse fuel spray

Ophir Nave, Vladimir Gol'dshtein, Yaron Lehavi

Department of Mathematics

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

Abstract

In this paper we investigate the problem of thermal explosion in a two-phase polydisperse combustible mixture (oxygen and fuel concentrations are takes into account). The current work presents a new, simplified model of the thermal explosion in a combustible gaseous mixture containing vaporizing fuel droplets of different radii (polydisperse). The polydispersity is modeled using a probability density function (PDF). The evolution of the size distribution of droplets due to the evaporation process is described by the kinetic equation for the PDF. An explicit expression of the critical condition for thermal explosion limit is derived analytically and represents a generalization of the critical parameter of the classical Semenov theory.

Original language	English
Pages (from-to)	1068-1084
Number of pages	17
Journal	Applied Mathematical Modelling
Volume	36
Issue number	3
DOIs	https://doi.org/10.1016/j.apm.2011.07.057
State	Published - 1 Mar 2012

Keywords

Diesel engines
Method of integral manifolds
Probability density function
Thermal radiation

ASJC Scopus subject areas

Modeling and Simulation
Applied Mathematics

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10.1016/j.apm.2011.07.057

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abstract = "In this paper we investigate the problem of thermal explosion in a two-phase polydisperse combustible mixture (oxygen and fuel concentrations are takes into account). The current work presents a new, simplified model of the thermal explosion in a combustible gaseous mixture containing vaporizing fuel droplets of different radii (polydisperse). The polydispersity is modeled using a probability density function (PDF). The evolution of the size distribution of droplets due to the evaporation process is described by the kinetic equation for the PDF. An explicit expression of the critical condition for thermal explosion limit is derived analytically and represents a generalization of the critical parameter of the classical Semenov theory.",

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AU - Gol'dshtein, Vladimir

AU - Lehavi, Yaron

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N2 - In this paper we investigate the problem of thermal explosion in a two-phase polydisperse combustible mixture (oxygen and fuel concentrations are takes into account). The current work presents a new, simplified model of the thermal explosion in a combustible gaseous mixture containing vaporizing fuel droplets of different radii (polydisperse). The polydispersity is modeled using a probability density function (PDF). The evolution of the size distribution of droplets due to the evaporation process is described by the kinetic equation for the PDF. An explicit expression of the critical condition for thermal explosion limit is derived analytically and represents a generalization of the critical parameter of the classical Semenov theory.

AB - In this paper we investigate the problem of thermal explosion in a two-phase polydisperse combustible mixture (oxygen and fuel concentrations are takes into account). The current work presents a new, simplified model of the thermal explosion in a combustible gaseous mixture containing vaporizing fuel droplets of different radii (polydisperse). The polydispersity is modeled using a probability density function (PDF). The evolution of the size distribution of droplets due to the evaporation process is described by the kinetic equation for the PDF. An explicit expression of the critical condition for thermal explosion limit is derived analytically and represents a generalization of the critical parameter of the classical Semenov theory.

KW - Diesel engines

KW - Method of integral manifolds

KW - Probability density function

KW - Thermal radiation

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The time evolution of the size distribution of droplets effects on the thermal explosion of polydisperse fuel spray

Abstract

Keywords

ASJC Scopus subject areas

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