Non-thermal particulate filter regeneration using rapid pulse electric discharges

Alex Mason; Jonathan Binner; Colin P. Garner; Karola Graupner; John E. Harry; Dave W. Hoare; Andrew M. Williams; Nick Fox

doi:10.4271/2013-01-0518

Non-thermal particulate filter regeneration using rapid pulse electric discharges

Alex Mason, Jonathan Binner, Colin P. Garner, Karola Graupner, John E. Harry, Dave W. Hoare, Andrew M. Williams^*, Nick Fox

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

This research introduces a new, novel approach to reverse flow particulate filter regeneration enabled by rapidly pulsed electric discharges. The discharges physically dislodge particulate matter (PM) from the filter substrate and allow a very low reverse air flow to transport it to a soot handling system. The system is operable independent of filter temperature, does not expose the filter to high thermal stresses or temperatures, has no apparent upper limit for filter PM-mass level (regeneration of a filter up to 17 g/L has been demonstrated), and does not require any catalyst. The system is inherently scalable allowing application to monolithic filters of any size or shape and can be tailored to suit specific application requirements such as limits on maximum regeneration time or power consumption. For example a light duty application would require as little as 200-500W electrical power to regenerate a filter in less than ten minutes (i.e. passenger car GPF or DPF). The paper discusses the mechanics and performance of a new, non-thermal pulsed discharge cleaning method based primarily on experimental investigations and evaluates its potential impact on fuel consumption, system complexity and engine operation

Original language	English
Title of host publication	SAE Technical Papers
Volume	2
DOIs	https://doi.org/10.4271/2013-01-0518
Publication status	Published - 2013
Event	SAE 2013 World Congress and Exhibition - Detroit, MI, United States Duration: 16 Apr 2013 → 18 Apr 2013

Conference

Conference	SAE 2013 World Congress and Exhibition
Country/Territory	United States
City	Detroit, MI
Period	16/04/13 → 18/04/13

ASJC Scopus subject areas

Automotive Engineering
Safety, Risk, Reliability and Quality
Pollution
Industrial and Manufacturing Engineering

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10.4271/2013-01-0518

Cite this

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title = "Non-thermal particulate filter regeneration using rapid pulse electric discharges",

abstract = "This research introduces a new, novel approach to reverse flow particulate filter regeneration enabled by rapidly pulsed electric discharges. The discharges physically dislodge particulate matter (PM) from the filter substrate and allow a very low reverse air flow to transport it to a soot handling system. The system is operable independent of filter temperature, does not expose the filter to high thermal stresses or temperatures, has no apparent upper limit for filter PM-mass level (regeneration of a filter up to 17 g/L has been demonstrated), and does not require any catalyst. The system is inherently scalable allowing application to monolithic filters of any size or shape and can be tailored to suit specific application requirements such as limits on maximum regeneration time or power consumption. For example a light duty application would require as little as 200-500W electrical power to regenerate a filter in less than ten minutes (i.e. passenger car GPF or DPF). The paper discusses the mechanics and performance of a new, non-thermal pulsed discharge cleaning method based primarily on experimental investigations and evaluates its potential impact on fuel consumption, system complexity and engine operation",

author = "Alex Mason and Jonathan Binner and Garner, {Colin P.} and Karola Graupner and Harry, {John E.} and Hoare, {Dave W.} and Williams, {Andrew M.} and Nick Fox",

year = "2013",

doi = "10.4271/2013-01-0518",

language = "English",

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booktitle = "SAE Technical Papers",

note = "SAE 2013 World Congress and Exhibition ; Conference date: 16-04-2013 Through 18-04-2013",

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AU - Mason, Alex

AU - Binner, Jonathan

AU - Garner, Colin P.

AU - Graupner, Karola

AU - Harry, John E.

AU - Hoare, Dave W.

AU - Williams, Andrew M.

AU - Fox, Nick

PY - 2013

Y1 - 2013

N2 - This research introduces a new, novel approach to reverse flow particulate filter regeneration enabled by rapidly pulsed electric discharges. The discharges physically dislodge particulate matter (PM) from the filter substrate and allow a very low reverse air flow to transport it to a soot handling system. The system is operable independent of filter temperature, does not expose the filter to high thermal stresses or temperatures, has no apparent upper limit for filter PM-mass level (regeneration of a filter up to 17 g/L has been demonstrated), and does not require any catalyst. The system is inherently scalable allowing application to monolithic filters of any size or shape and can be tailored to suit specific application requirements such as limits on maximum regeneration time or power consumption. For example a light duty application would require as little as 200-500W electrical power to regenerate a filter in less than ten minutes (i.e. passenger car GPF or DPF). The paper discusses the mechanics and performance of a new, non-thermal pulsed discharge cleaning method based primarily on experimental investigations and evaluates its potential impact on fuel consumption, system complexity and engine operation

AB - This research introduces a new, novel approach to reverse flow particulate filter regeneration enabled by rapidly pulsed electric discharges. The discharges physically dislodge particulate matter (PM) from the filter substrate and allow a very low reverse air flow to transport it to a soot handling system. The system is operable independent of filter temperature, does not expose the filter to high thermal stresses or temperatures, has no apparent upper limit for filter PM-mass level (regeneration of a filter up to 17 g/L has been demonstrated), and does not require any catalyst. The system is inherently scalable allowing application to monolithic filters of any size or shape and can be tailored to suit specific application requirements such as limits on maximum regeneration time or power consumption. For example a light duty application would require as little as 200-500W electrical power to regenerate a filter in less than ten minutes (i.e. passenger car GPF or DPF). The paper discusses the mechanics and performance of a new, non-thermal pulsed discharge cleaning method based primarily on experimental investigations and evaluates its potential impact on fuel consumption, system complexity and engine operation

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DO - 10.4271/2013-01-0518

M3 - Conference contribution

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BT - SAE Technical Papers

T2 - SAE 2013 World Congress and Exhibition

Y2 - 16 April 2013 through 18 April 2013

ER -

Non-thermal particulate filter regeneration using rapid pulse electric discharges

Abstract

Conference

ASJC Scopus subject areas

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