Litcius/Paper detail

Effect of Particle Size on Boron Combustion in Air

A. P. Shpara, D. A. Yagodnikov, А. В. Сухов

2020Combustion Explosion and Shock Waves18 citationsDOI

Abstract

Abstract Mathematical modeling of combustion of micron-sized and nanometer boron particles in air with allowance for changes in the heat and mass transfer mechanism and a decreasing particle size is carried out. The Knudsen number is taken as an indicator of a transition from one state to another: a continuous medium assumption is valid for describing the heat and mass transfer mechanisms in the case where Kn $$<$$ < 0.01, the free molecular regime takes place for Kn $$>$$ > 10, and a transient state occurs for 0.01 $$<$$ < Kn $$<$$ < 10. Particle sizes at which different heat and mass transfer regimes occur with respect to boron combustion in air at pressures of 0.1–4 MPa are estimated. The time it takes for boron particles to combust within the framework of the assumption of a continuous medium and in a free molecular mode is determined. It is shown that calculation models for determining the burning time of boron particles with initial sizes close to micron-sized and nanodispersed ones should take into account a change in the heat and mass transfer mechanism with variation in the current particle radius during burnout.

Topics & Concepts

CombustionBoronKnudsen numberMass transferHeat transferParticle (ecology)MechanicsMaterials scienceThermodynamicsParticle sizeRADIUSChemistryPhysicsPhysical chemistryGeologyComputer securityOceanographyOrganic chemistryComputer scienceEnergetic Materials and CombustionCombustion and Detonation ProcessesThermal and Kinetic Analysis