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A 3D Monte Carlo Simulation for Aerosol Deposition onto Horizontal Surfaces by Combined Mechanisms of Brownian Diffusion and Gravity Sedimentation
بواسطة
Chen, Yongping
, Zhu, Hui
, Qi, Can
, Li, Gang
, Wu, Shixian
في
Aerosol deposition
/ Aerosol particles
/ Aerosol transport
/ Aerosols
/ Air flow
/ Atmospheric particulates
/ Brownian motion
/ Deposition
/ Diffusion
/ Diffusion layers
/ Distribution
/ Dust
/ Environmental aspects
/ Glass substrates
/ Gravity
/ horizontal surface
/ micromorphology
/ Monte Carlo simulation
/ Morphology
/ Particle motion
/ Particle size
/ particle size distribution
/ Particle transport
/ Peclet number
/ Random walk
/ Sediment transport
/ Sedimentation
/ Sedimentation & deposition
/ Sedimentation and deposition
/ Solid surfaces
/ Statistical methods
/ stochastic model
/ Surfaces
/ Three dimensional models
/ Transport equations
/ Velocity
2022
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A 3D Monte Carlo Simulation for Aerosol Deposition onto Horizontal Surfaces by Combined Mechanisms of Brownian Diffusion and Gravity Sedimentation
بواسطة
Chen, Yongping
, Zhu, Hui
, Qi, Can
, Li, Gang
, Wu, Shixian
في
Aerosol deposition
/ Aerosol particles
/ Aerosol transport
/ Aerosols
/ Air flow
/ Atmospheric particulates
/ Brownian motion
/ Deposition
/ Diffusion
/ Diffusion layers
/ Distribution
/ Dust
/ Environmental aspects
/ Glass substrates
/ Gravity
/ horizontal surface
/ micromorphology
/ Monte Carlo simulation
/ Morphology
/ Particle motion
/ Particle size
/ particle size distribution
/ Particle transport
/ Peclet number
/ Random walk
/ Sediment transport
/ Sedimentation
/ Sedimentation & deposition
/ Sedimentation and deposition
/ Solid surfaces
/ Statistical methods
/ stochastic model
/ Surfaces
/ Three dimensional models
/ Transport equations
/ Velocity
2022
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هل تريد طلب الكتاب؟
A 3D Monte Carlo Simulation for Aerosol Deposition onto Horizontal Surfaces by Combined Mechanisms of Brownian Diffusion and Gravity Sedimentation
بواسطة
Chen, Yongping
, Zhu, Hui
, Qi, Can
, Li, Gang
, Wu, Shixian
في
Aerosol deposition
/ Aerosol particles
/ Aerosol transport
/ Aerosols
/ Air flow
/ Atmospheric particulates
/ Brownian motion
/ Deposition
/ Diffusion
/ Diffusion layers
/ Distribution
/ Dust
/ Environmental aspects
/ Glass substrates
/ Gravity
/ horizontal surface
/ micromorphology
/ Monte Carlo simulation
/ Morphology
/ Particle motion
/ Particle size
/ particle size distribution
/ Particle transport
/ Peclet number
/ Random walk
/ Sediment transport
/ Sedimentation
/ Sedimentation & deposition
/ Sedimentation and deposition
/ Solid surfaces
/ Statistical methods
/ stochastic model
/ Surfaces
/ Three dimensional models
/ Transport equations
/ Velocity
2022
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A 3D Monte Carlo Simulation for Aerosol Deposition onto Horizontal Surfaces by Combined Mechanisms of Brownian Diffusion and Gravity Sedimentation
Journal Article
A 3D Monte Carlo Simulation for Aerosol Deposition onto Horizontal Surfaces by Combined Mechanisms of Brownian Diffusion and Gravity Sedimentation
2022
اطلب الآن
واختر طريقة الاستلام
نظرة عامة
A three-dimensional Monte Carlo model was developed to simulate the deposition of aerosol particles onto horizontal solid surfaces. The random walk method was employed to solve the particle transport equation, which allowed obtaining the trajectory of particle motion by a combined mechanism of Brownian diffusion and gravity sedimentation. The particle transport mechanism was described in terms of a Peclet number (Pe). The local structures of the dust layer, the relationship between the structure of the dust layer and particle transport mechanisms, and the number of the particles attached to the solid surface were investigated. The results showed that for a small Pe, when Brownian diffusion was a controlling mechanism for aerosol transport, the dust layer might exhibit a more open and looser structure, while for a large Pe, the dust layer was dense and tight. The differences of deposition morphologies under different transport mechanisms were caused by the different random intensities of particle motion. There was an upper limit of the maximum number of particles attached to the surface, and it strongly depended on particle transport mechanisms and size distributions. Additionally, the deposit morphologies obtained with the 3D Monte Carlo model were in good agreement with the experimental results found in the literature.
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