Experimental and Numerical Investigation of Corona Discharge Induced Flow on a Flat Plate
Ravi Sankar Vaddi, Yifei Guan, Zhi Yan Chen, Alexander Mamishev, Igor, Novosselov

TL;DR
This study combines experimental and numerical methods to analyze corona discharge-induced flow on a flat plate, revealing detailed flow characteristics and potential applications in flow control and particle collection.
Contribution
It provides a comprehensive multiphysics model of corona EHD flow and validates it with experiments, offering new insights into ion and flow transport mechanisms.
Findings
Maximum flow velocity of 1.7 m/s near the wall
Energy conversion efficiency of approximately 2%
Numerical model accurately matches experimental data
Abstract
Electrohydrodynamic (EHD) flow induced by planar corona discharge in the wall boundary layer region is investigated experimentally and via a multiphysics computational model. The EHD phenomena has many potential engineering applications, its optimization requires a mechanistic understanding of the ion and flow transport. The corona EHD actuator consisting of two electrodes located in the wall boundary layer creates an EHD driven wall jet. The applied voltage between the electrodes is varied and the resulting effects in the charge density and flow field are measured. Constant current hotwire anemometry is used to measure velocity profile. The airflow near the wall acts a jet and it reaches a maximum of 1.7 m/s with an energy conversion efficiency of ~2%. The velocity decreases sharply in the normal direction. Multiphysics numerical model couples ion transport equation and the Navier…
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Taxonomy
TopicsAerosol Filtration and Electrostatic Precipitation · High voltage insulation and dielectric phenomena · Lattice Boltzmann Simulation Studies
