Development of EHD-Assisted Plasma Electrostatic Precipitator

Author

Yamamoto, Takayuki ; Maeda, Shigenobu ; Ehara, Yoshiyasu ; Kawakami, H.

Author_Institution

Tokyo City Univ., Tokyo, Japan

Volume

49

Issue

2

fYear

2013

fDate

March-April 2013

Firstpage

672

Lastpage

678

Abstract

A newly developed novel device is able to not only collect low resistive particles generated from diesel engine but also incinerate captured particulates within the same reactor. The new electrohydrodynamically assisted plasma electrostatic precipitator (plasma ESP) is to utilize ionic wind to transport the charged particles effectively into the low electrostatic field region where electrostatic repulsion force acting on particles by induction charge becomes very small, resulting in reentrainment suppression. At the same time, collected particulates are incinerated by ozone and oxidation product of in the flue gas by the surface discharge plasma so that no particle-handling device is required. The particle-size-dependent collection efficiency and particle incineration were evaluated by the scanning mobility particle sizer and the particle counter. This plasma ESP is particularly important for automobile and marine diesel engine emission control.

Keywords

diesel engines; discharges (electric); electrohydrodynamics; electrostatic precipitators; incineration; oxidation; ozone; particle size; plasma applications; plasma chemistry; plasma transport processes; EHD-assisted plasma electrostatic precipitator; automobile diesel engine emission control; charged particle transport; diesel engines; electrostatic repulsion force; flue gas oxidation product; incinerate captured particulates; induction charge; ionic wind utilization; low electrostatic field region; low resistive particles collector; marine diesel engine emission control; particle counter; particle size dependent collection efficiency; particulate ozone incineration; plasma ESP; reentrainment suppression; scanning mobility particle sizer; surface discharge plasma; Atmospheric measurements; Electrodes; Incineration; Particle measurements; Plasma temperature; Temperature measurement; Diesel particles; electrohydrodynamically (EHD); electrostatic precipitator (ESP); emission control; incineration; plasma;

fLanguage

English

Journal_Title

Industry Applications, IEEE Transactions on

Publisher

ieee

ISSN

0093-9994

Type

jour

DOI

10.1109/TIA.2013.2241378

Filename

6415266