Date of download: 7/2/2016 Copyright © ASME. All rights reserved. From: Influence of Applied Magnetic Field on a Wire-Plate Electrostatic Precipitators.

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Date of download: 7/2/2016 Copyright © ASME. All rights reserved. From: Influence of Applied Magnetic Field on a Wire-Plate Electrostatic Precipitators Under Multi-Field Coupling J. Fluids Eng. 2013;135(8): doi: / Schematic drawing of mechanism analysis on a wire-plate ESP under external magnetic field Figure Legend:

Date of download: 7/2/2016 Copyright © ASME. All rights reserved. From: Influence of Applied Magnetic Field on a Wire-Plate Electrostatic Precipitators Under Multi-Field Coupling J. Fluids Eng. 2013;135(8): doi: / Schematic diagram of multifield coupling inside an ESP Figure Legend:

Date of download: 7/2/2016 Copyright © ASME. All rights reserved. From: Influence of Applied Magnetic Field on a Wire-Plate Electrostatic Precipitators Under Multi-Field Coupling J. Fluids Eng. 2013;135(8): doi: / Two-dimensional computational model of a three-wire plate ESP Figure Legend:

Date of download: 7/2/2016 Copyright © ASME. All rights reserved. From: Influence of Applied Magnetic Field on a Wire-Plate Electrostatic Precipitators Under Multi-Field Coupling J. Fluids Eng. 2013;135(8): doi: / Flow chart for the numerical calculation Figure Legend:

Date of download: 7/2/2016 Copyright © ASME. All rights reserved. From: Influence of Applied Magnetic Field on a Wire-Plate Electrostatic Precipitators Under Multi-Field Coupling J. Fluids Eng. 2013;135(8): doi: / Computational mesh of the wire-plate ESP model Figure Legend:

Date of download: 7/2/2016 Copyright © ASME. All rights reserved. From: Influence of Applied Magnetic Field on a Wire-Plate Electrostatic Precipitators Under Multi-Field Coupling J. Fluids Eng. 2013;135(8): doi: / Comparison of the predicted potential distribution with the experimental data in Ref. [22]: (a) from the plate to the midpoint between wires and (b) from the plate to the wire along the wire-plate line Figure Legend:

Date of download: 7/2/2016 Copyright © ASME. All rights reserved. From: Influence of Applied Magnetic Field on a Wire-Plate Electrostatic Precipitators Under Multi-Field Coupling J. Fluids Eng. 2013;135(8): doi: / Particle tracks under different applied magnetic field intensities (V0 = 46.2 kV, u = 0.7 m/s): (a) B = 0.0 T, (b) B = 1.0 T, (c) B = 3.0 T, (d) B = 4.0 T Figure Legend:

Date of download: 7/2/2016 Copyright © ASME. All rights reserved. From: Influence of Applied Magnetic Field on a Wire-Plate Electrostatic Precipitators Under Multi-Field Coupling J. Fluids Eng. 2013;135(8): doi: / Average diameter of escaping particles versus applied magnetic field intensity (V0 = 46.2 kV, u = 0.7 m/s) Figure Legend:

Date of download: 7/2/2016 Copyright © ASME. All rights reserved. From: Influence of Applied Magnetic Field on a Wire-Plate Electrostatic Precipitators Under Multi-Field Coupling J. Fluids Eng. 2013;135(8): doi: / Collection efficiency versus the operating voltage under different applied magnetic field intensities (u = 0.7 m/s) Figure Legend:

Date of download: 7/2/2016 Copyright © ASME. All rights reserved. From: Influence of Applied Magnetic Field on a Wire-Plate Electrostatic Precipitators Under Multi-Field Coupling J. Fluids Eng. 2013;135(8): doi: / Average diameter of escaping particles versus the operating voltage under different applied magnetic field intensities (u = 0.7 m/s) Figure Legend:

Date of download: 7/2/2016 Copyright © ASME. All rights reserved. From: Influence of Applied Magnetic Field on a Wire-Plate Electrostatic Precipitators Under Multi-Field Coupling J. Fluids Eng. 2013;135(8): doi: / Statistical histogram of incident particles and trapped particles at u = 0.7 m/s: (a) B = 0.0 T, (b) B = 1.0 T, (c) B = 2.0 T, (d) B = 4.0 T Figure Legend:

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