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– The purpose of this paper is to study nanoparticles diffusion and coagulation processes in a twin-jet.
Abstract
Purpose
The purpose of this paper is to study nanoparticles diffusion and coagulation processes in a twin-jet.
Design/methodology/approach
Large eddy simulation (LES) and Taylor-series expansion moment method (TEMOM) are employed to deal with a nanoparticle-laden twin-jet flow.
Findings
The numerical results show that the interaction of the two jets and turbulence eddy structures rolling-up, paring and shedding in flow sharply affects particles number concentration. Particle diameter grows quickly at the interfaces of jets. Coagulation shows more obvious effect at initial stage than that in the subsequent period. Then diffusion makes the particle diameter distribution much more uniform.
Originality/value
In recent years a great number of attentions have been focussed on the issue of particulate dynamics processes including diffusion, coagulation and deposition, etc. However, up to now few works have been focus on the nanoparticles coagulation and dispersion in turbulent flows. The investigation on the diffusion and coagulation process of nanoparticles using TEMOM in a twin-jet flow has not been found.
Details
Keywords
Liu Huijie, Yu Mingzhou, Yin Zhaoqin, Jiang Ying and Chen Miaogen
– The purpose of this paper is to investigate competitive effect of source strength and coagulation on the evolution of aerosol size distribution with a continuous source.
Abstract
Purpose
The purpose of this paper is to investigate competitive effect of source strength and coagulation on the evolution of aerosol size distribution with a continuous source.
Design/methodology/approach
A theoretical model was proposed in which the nanoparticle population balance equation with respect to particle size was solved by the sectional method.
Findings
It was found two modes appear when a nanoparticle system was injected by a continuous source.
Originality/value
Through tracing the evolution of particle size distribution with different source strength, the characteristics of two modes as well as their lag-time to approach steady state were deeply investigated.
Details