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A numerical study of electric force effects on detachment and deposition of particles due to a falling disk
Ist Teil von
Journal of aerosol science, 2018-10, Vol.124, p.133-145
Ort / Verlag
Elsevier Ltd
Erscheinungsjahr
2018
Link zum Volltext
Quelle
Elsevier ScienceDirect Journals Complete
Beschreibungen/Notizen
One of the main sources of particulate matter (PM) in indoor environments is particle resuspension due to human activities such as walking. In many situations, surfaces are charged, and electric forces become important. As the human gait cycle induced airflow and electric fields and their interaction with particle resuspension, dispersion and deposition are rather complicated, using a simplified model can help to gain a better understanding of process. In this study, the effect of presence of electric field on particle detachment and deposition due to a falling disk was investigated using a computational modeling approach. For this purpose, a charged disk was considered to be falling freely on a rough surface from a specific height. The disk electric potential developed an electric field throughout the domain that intensified as the disk gets closer to the floor. The electric field charged the particles that were resting on the floor by the field charging mechanism. It was found that the presence of electric force decreased the critical shear velocity needed to detach the particles; however, the reduction was negligible for particles smaller than 5 µm. In addition, the simulation results showed that the number of particles deposited on the disk increased with the size of particles in the presence of electric field. The results of this study provide a better understanding of the effect of the electric potential induced due to human activities on detachment and dispersion of particles in indoor environments.
•The effect of electric field on detachment and deposition of particles was studied.•Total number of detached particles is not mainly affected by the electric field.•Most of particles deposit on the disk when the electric field is imposed.•Deposition of particles on the charged disk increases with the particles size.