Three-dimensional analysis of electrohydrodynamic flow in a spiked electrode-plate electrostatic precipitator

“…When electric field boundary condition is used, the outer sides are considered as zero charge symmetry, as shown in Eq. (15). The electrical voltage ( = 0 ) is fixed at the tip of electrode and the ground is = 0.…”

“…For induced flow, electrostatic precipitation has a very complex interaction between the electric field, gas, and particulate flow. The motion and precipitation of dust particles in electrostatic precipitation depends on the electric field, space charge, gas flow field, and dust particle properties . For mixing processes, studies demonstrating the enhancement of heat transfer and mass transport, especially with respect to evaporators and condensers, has been performed .…”

“…The motion and precipitation of dust particles in electrostatic precipitation depends on the electric field, space charge, gas flow field, and dust particle properties. [13][14][15] For mixing processes, studies demonstrating the enhancement of heat transfer and mass transport, especially with respect to evaporators and condensers, has been performed. [16][17][18][19] The rapid control of performance by varying the applied electric field, the simple design, and low power requirements are all advantages of the application of EHD.…”

Flow control with electrode bank arrangements by electrohydrodynamics force for heat transfer enhancement in a porous medium

“…When electric field boundary condition is used, the outer sides are considered as zero charge symmetry, as shown in Eq. (15). The electrical voltage ( = 0 ) is fixed at the tip of electrode and the ground is = 0.…”

“…For induced flow, electrostatic precipitation has a very complex interaction between the electric field, gas, and particulate flow. The motion and precipitation of dust particles in electrostatic precipitation depends on the electric field, space charge, gas flow field, and dust particle properties . For mixing processes, studies demonstrating the enhancement of heat transfer and mass transport, especially with respect to evaporators and condensers, has been performed .…”

“…The motion and precipitation of dust particles in electrostatic precipitation depends on the electric field, space charge, gas flow field, and dust particle properties. [13][14][15] For mixing processes, studies demonstrating the enhancement of heat transfer and mass transport, especially with respect to evaporators and condensers, has been performed. [16][17][18][19] The rapid control of performance by varying the applied electric field, the simple design, and low power requirements are all advantages of the application of EHD.…”

Flow control with electrode bank arrangements by electrohydrodynamics force for heat transfer enhancement in a porous medium

“…13,20 Numerous studies on the discharge characteristics of wire-plate ESPs have been reported; these studies include investigations of emitter geometry and material on the electrode corona discharge to optimize the discharge electrode through experimental and numerical methods. [21][22][23][24][25] Electrodes with different shapes, diameters, and intervals were tested in an experimental-scale ESP at high temperatures, 26,27 and migration velocity was also investigated. 28,29 Corona discharge and particle collection characteristics in a wet ESP with a ne water mist were discussed.…”

Current density distribution and optimization of the collection electrodes of a honeycomb wet electrostatic precipitator

“…The subject of EHD flows behaviour in ESPs in the steady state (or timeaveraged mode) has been undertaken and widely described by theoretical [e.g. [8][9][10] and experimental [e.g. [11][12][13][14][15] researchers.…”

Electrohydrodynamic Flow Evolution in a Narrow Wire-Plate Electrostatic Precipitator