IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0505318
(2003-02-28)
|
우선권정보 |
JP-2002-056051(2002-03-01) |
국제출원번호 |
PCT/JP03/002378
(2003-02-28)
|
§371/§102 date |
20050302
(20050302)
|
국제공개번호 |
WO03/074847
(2003-09-12)
|
발명자
/ 주소 |
- Hashimoto,Shigeharu
- Miyairi,Yukio
- Ito,Tadato
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
4 |
초록
▼
There are disclosed an exhaust emission control system including an internal combustion engine, a filter, and an exhaust pipe, a method of manufacturing a filter suitable for the system, and a method of calculating a pressure loss. The system comprises combustion means for intermittently burning par
There are disclosed an exhaust emission control system including an internal combustion engine, a filter, and an exhaust pipe, a method of manufacturing a filter suitable for the system, and a method of calculating a pressure loss. The system comprises combustion means for intermittently burning particulate matters arrested by the filter, the filter includes porous partition walls extending from one end face to the other end face thereof, and a large number of through channels partitioned by the partition walls, predetermined through channels are sealed at either of the end faces, and assuming that a partition wall thickness is (X) μm, and the number of through channels per unit area in a cross section vertical to a longitudinal direction of the through channels is (Y) cells/cm2, X and Y come within a range surrounded by straight lines connecting points A1, B1, C 1, and D1 in this order in FIG. 1 in the exhaust emission control system. There are provided the exhaust emission control system, the method of manufacturing the filter, and the method of calculating the pressure loss by the filter with good accuracy in which a temperature gradient produced in the filter at the time of regeneration is suppressed while suppressing a rise of the pressure loss by the filter and which are accordingly superior in reliability.
대표청구항
▼
The invention claimed is: 1. An exhaust emission control system comprising: an internal combustion engine; a filter for capturing particulate matters in an exhaust gas exhausted from the internal combustion engine; and an exhaust pipe for introducing the exhaust gas into the filter, the system comp
The invention claimed is: 1. An exhaust emission control system comprising: an internal combustion engine; a filter for capturing particulate matters in an exhaust gas exhausted from the internal combustion engine; and an exhaust pipe for introducing the exhaust gas into the filter, the system comprising combustion means for intermittently burning the particulate matters captured by the filter, the filter being a honeycomb filter including: at least two end faces; porous partition walls extending from one end face to the other end face; and a large number of through channels partitioned by the partition walls and extending from one end face through the other end face, predetermined through channels being sealed in one end face, remaining predetermined through channels being sealed in the other end face, wherein assuming that a partition wall thickness is (X) μm, and the number of through channels per unit area in a section vertical to a longitudinal direction of the through channels is (Y) cells/cm2, X and Y fall within a range surrounded by straight lines connecting points A3 (X is 330, Y is 42.7), B 3 (X is 356, Y is 34.9), C3 (X is 406, Y is 34.9), and D 3 (X is 381, Y is 42.7) in this order wherein the filter has a combination of X and Y that keeps a temperature gradient below 180째 C./cm at a time of filter regeneration to prevent cracks from being generated. 2. The exhaust emission control system according to claim 1, wherein the internal combustion engine is a diesel engine. 3. The exhaust emission control system according to claim 1, further comprising: means for lowering the burning temperature of the particulate matters captured by the filter. 4. The exhaust emission control system according to claim 1, further comprising: means for promoting the burning of the particulate matters captured by the filter. 5. The exhaust emission control system according to claim 1, wherein the filter contains a ceramic material as a main component. 6. The exhaust emission control system according to claim 1, wherein the filter is constituted by integration of a plurality of segments of a honeycomb structure. 7. The exhaust emission control system according to claim 1, wherein the combustion means includes exhaust gas temperature raising means for raising a temperature of the exhaust gas in such a manner as to start the burning of the particulate matters captured by the filter. 8. The exhaust emission control system according to claim 7, wherein the exhaust gas temperature raising means includes an adjustment device for adjusting a time to supply fuel to the internal combustion engine. 9. The exhaust emission control system according to claim 7, wherein the exhaust gas temperature raising means includes a supply device for supplying the fuel into the exhaust pipe. 10. A method of calculating a pressure loss of a honeycomb filter including: at least two end faces; porous partition walls extending from one end face to the other end face; and a large number of through channels partitioned by the partition walls and extending from one end face through the other end face, predetermined through channels being plugged in one end face, remaining predetermined through channels being plugged in the other end face, the method comprising the steps of: decomposing the pressure loss into at least a pressure loss in a plugged portion, a pressure loss in the through channel, and a pressure loss in the partition wall; and decomposing the pressure loss in the partition wall into pressure losses in cases where any particulate matter is not deposited in the filter and where the particulate matters are deposited to calculate the pressure loss. 11. A method of manufacturing a filter, wherein a shape of the filter is determined by use of a pressure loss value obtained by the calculation method according to claim 10. 12. The method of calculating the pressure loss according to claim 10, further comprising the steps of measuring the pressure loss in the case where the particulate matters are deposited in the predetermined filter; and calculating the pressure loss in the partition wall in the case where the particulate matters are deposited in the filter based on an equation obtained by curve fitting of an increase behavior of the obtained pressure loss. 13. A method of manufacturing a filter, wherein a shape of the filter is determined by use of a pressure loss value obtained by the calculation method according to claim 12. 14. An exhaust emission control system comprising: an internal combustion engine; a filter for capturing particulate matters in an exhaust gas exhausted from the internal combustion engine; and an exhaust pipe for introducing the exhaust gas into the filter, the system comprising a combustion device for intermittently burning the particulate matters captured by the filter, the filter being a honeycomb filter including: at least two end faces; porous partition walls extending from one end face to the other end face; and a large number of through channels partitioned by the partition walls and extending from one end face through the other end face, predetermined through channels being sealed in one end face, remaining predetermined through channels being sealed in the other end face, wherein assuming that a partition wall thickness is (X) μm, and the number of through channels per unit area in a section vertical to a longitudinal direction of the through channels is (Y) cells/cm2, X and Y fall within a range surrounded by straight lines connecting points A3 (X is 330, Y is 42.7), B 3 (X is 356, Y is 34.9), C3 (X is 406, Y is 34.9), and D 3 (Xis 381, Y is 42.7) in this order wherein the filter has a combination of X and Y that keeps a temperature gradient below 180째 C./cm at a time of filter regeneration to prevent cracks from being generated.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.