Exhaust after-treatment system for the reduction of pollutants from diesel engine exhaust and related method
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01N-003/00
F01N-003/02
출원번호
US-0041883
(2005-01-24)
등록번호
US-7266943
(2007-09-11)
발명자
/ 주소
Kammel,Refaat A.
출원인 / 주소
Converter Technology, Inc.
대리인 / 주소
Harness, Dickey & Pierce, P.L.C.
인용정보
피인용 횟수 :
20인용 특허 :
15
초록▼
Exhaust after-treatment system for the reduction of particulate, NOx, HC, CO, VOCs, nano-particle count and sulfur dioxide from diesel exhaust. System employs diesel oxidation catalyst, exhaust cooling system, particulate converter, soot collection chamber, soot processing drum, EGR and water scrubb
Exhaust after-treatment system for the reduction of particulate, NOx, HC, CO, VOCs, nano-particle count and sulfur dioxide from diesel exhaust. System employs diesel oxidation catalyst, exhaust cooling system, particulate converter, soot collection chamber, soot processing drum, EGR and water scrubber.
대표청구항▼
What is claimed is: 1. A diesel exhaust after-treatment system for the cleanup of regulated and unregulated pollutants from an exhaust of a diesel engine, the system comprising: a diesel particulate converter having an agglomerator for the agglomeration of particulate matter and a separator for the
What is claimed is: 1. A diesel exhaust after-treatment system for the cleanup of regulated and unregulated pollutants from an exhaust of a diesel engine, the system comprising: a diesel particulate converter having an agglomerator for the agglomeration of particulate matter and a separator for the separation of particulate matter, the agglomerator constructed of composite wire mesh media; a soot collection chamber for collecting and retaining entrapped soot; an exhaust cooling system for cooling the exhaust; and wherein the exhaust-cooling system includes a radiation mode cooling section, a first convection mode cooling section utilizing a source of ambient air to cool the exhaust, and a second convection mode cooling section utilizing a source of liquid to cool the exhaust, the radiation-mode cooling section includes one or more pipes having larger surface area than conventional piping and a blackened outside surface, for maximum cooling effect. 2. The exhaust after-treatment system of claim 1, further comprising an exhaust gas re-circulation system circulating the clean exhaust leaving the particulate collection chamber to a port downstream from an engine air filter. 3. The exhaust after-treatment system of claim 1, further comprising an oxidation catalyst. 4. The exhaust after-treatment system of claim 1, wherein the diesel particulate converter for the agglomeration and separation of particulate matter from the exhaust includes: a housing; a centrifugal separator having a core pipe radially centered in the housing, the core pipe having a plurality of windows for capturing clean exhaust streams; and a plurality of helical augers extending from the core to the agglomerator such that the exhaust enters the centrifugal separator at an upstream end, is then forced into a cyclonic helical motion and exits at a downstream end. 5. The exhaust after-treatment system of claim 4, wherein the centered core pipe captures and collects clean exhaust layers in a progressive manner as such clean layers develop through the plurality of windows. 6. The exhaust after-treatment system of claim 5, wherein the plurality of windows are configured to have clean exhaust layers change flow direction radially toward the core pipe, thereby preventing fugitive particles from re-entering the clean air stream. 7. The exhaust after-treatment system of claim 5, wherein the windows are configured to have openings extending from a middle of the flow channel toward the auger, the openings stopping short from the auger, thereby preventing re-entry of fugitive particulates caused by swirl phenomenon. 8. The exhaust after-treatment system of claim 1, wherein the composite wire mesh has variable wire sizes and compact densities, the agglomerator wires and densities have void spacing in excess of 50 microns to avoid plugging up during all engine operating conditions. 9. The exhaust after-treatment system of claim 1, wherein the soot collection chamber includes a retaining screen to provide barrier media for the trapping of agglomerated soot, the chamber design and mounting cause such soot cake built on the bottom of the screen to fall to the lower half of the chamber. 10. The exhaust after-treatment system of claim 1, wherein the soot collection chamber indudes a vibrating system having a spring and steel ball excitable from vehicle pulsation and vibration, the steel ball for causing a hammering action at selected locations on the screen to continuously release soot cakes and prevent the soot cakes from building up. 11. The exhaust after-treatment system of claim 1, further comprising a soot processing drum for collecting agglomerated soot from a large number of soot collection chambers, the drum compresses soot into solid pellet for shipping and use in industrial applications. 12. The exhaust after-treatment system of claim 1, wherein the soot-processing drum includes a back pulsation system for periodically cleaning the screen assembly from soot build up. 13. The exhaust after treatment system of claim 1, wherein the soot-processing drum includes a mechanical vibrator for continuously releasing the screen assembly from soot build up. 14. An exhaust after-treatment system for the clean up of regulated and unregulated pollutants from the exhaust of a diesel engine, the system comprising: diesel particulate converter having a wire mesh media for the agglomeration of particulate matter; an air pulsation system in fluid communication with the diesel particulate converter; a sensor for sensing a pressure drop across the particulate converter and generating a control signal in response to the pressure drop having a predetermined value; an electronic control module (ECU) for activating the air pulsation system to remove particulate matter from the wire mesh media; an incinerator; and wherein an air pulsation system is a reverse pulse jet system including a compressed air tank, a pulse valve and passive sliding door within the housing of the particulate converter; and wherein a passive sliding door assembly is activated through the incoming pulsed air causing the sliding door to close, that such action will force all of the incoming pulsed air to go through the quasi agglomeration/filtration media to ensure effective soot blow off, that such sliding door will return to the open position at the conclusion of pulsation through a compression spring action. 15. The exhaust after-treatment system of claim 14, wherein the ECU monitors engine operating condition and initiates pulsation only when the engine is off or at idle condition to maximize the effect of reverse pulse jet on the media. 16. A diesel exhaust after-treatment system for the cleanup of regulated and unregulated pollutants from an exhaust of a diesel engine, the system comprising: a diesel particulate converter having an agglomerator for the agglomeration of particulate matter and a separator for the separation of particulate matter, the agglomerator constructed of composite wire mesh media; and a soot collection chamber for collecting and retaining entrapped soot; wherein the diesel particulate converter for the agglomeration and separation of particulate matter from the exhaust includes: a housing; a centrifugal separator having a core pipe radially centered in the housing, the core pipe having a plurality of windows for capturing clean exhaust streams; and a plurality of helical augers extending from the core to the agglomerator such that the exhaust enters the centrifugal separator at an upstream end, is then forced into a cyclonic helical motion and exits at a downstream end; wherein the centered core pipe captures and collects clean exhaust layers in a progressive manner as such clean layers develop through the plurality of windows; and wherein the windows are configured to have openings extending from a middle of the flow channel toward the auger, the openings stopping short from the auger, thereby preventing re-entry of fugitive particulates caused by swirl phenomenon.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (15)
Dettling Hubert (Waiblingen DEX) Eisele Hermann (Vaihingen DEX) Haag Gottlob (Markgroningen DEX) Hgele Karl-Heinz (Vaihingen DEX) Linder Ernst (Mhlacker DEX) Polach Wilhelm (Mglingen DEX), Apparatus for removing solid particles from internal combustion engine exhaust gases.
Rim Julius J. (2743 Bloomfield Crossing Bloomfield Hills MI 48304) Rim Ho (601-4 Sinsa-Dong ; Kangnam-Ku Seoul KRX), Combustion box exhaust filtration system and method.
Rao V. Durga N. (Bloomfield Township ; Oakland County MI) Wade Wallace R. (Farmington Hills MI), Low energy regeneration system for particulate trap for an internal combustion engine.
Brendan Patrick Carberry GB; David Arthur Ketcher GB; Paul Eduard Moraal NL, Regeneration of diesel engine particulate filter only above low fuel levels.
Chillar, Rahul J.; Taylor, Robert W.; Maly, Peter Martin; Draper, Sam; Toprani, Amit, System for reducing the sulfur oxides emissions generated by a turbomachine.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.