Aerosol Science and Technology
 2000
DOI: 10.1080/02786820050121567
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Monte Carlo Analysis of Polydisperse Microparticle Impacts with Surfaces

X. Li
1
,
Patrick F. Dunn
2
,
Raymond M. Brach
3

Abstract: ABSTRACT. The Monte Carlo method was applied to an impact model to investigate the impact of polydisperse microparticles with surfaces. The Monte Carlo results were compared to experiments. Two different situations were examined: the normal (90 ± ) impact of microspheres with a molecularly-smooth silicon surface, and the oblique (< 90 ± ) impact of microspheres with a Formica surface. In the former, the percentage of microspheres captured by the surface and the overall capture velocity distribution were determ… Show more

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Cited by 2 publications
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Physical and Numerical Model for Calculation of Ensembles of Trajectories of Dust Particles in a Tokamak

Gervasini
1
,
Lazzaro
2
,
Uccello
3
2016
J Fusion Energ
19
2
28
0
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Physical and Numerical Model for Calculation of Ensembles of Trajectories of Dust Particles in a Tokamak

Gervasini
1
,
Lazzaro
2
,
Uccello
3
2016
J Fusion Energ
19
2
28
0
View full textAdd to dashboardCite

Comparison of dust transport modelling codes in a tokamak plasma

Uccello
1
,
Gervasini
2
,
Ghezzi
3
et al. 2016
Physics of Plasmas
7
1
7
0
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