IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0682445
(2001-09-04)
|
발명자
/ 주소 |
- van Nieuwstadt, Michiel Jacques
|
출원인 / 주소 |
- Ford Global Technologies, Inc.
|
대리인 / 주소 |
Lippa, Allan J.Russell, John D.
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인용정보 |
피인용 횟수 :
55 인용 특허 :
19 |
초록
▼
A method wherein a reactant is added to a substance to react with such substance. The product of such reaction along with un-reacted portions of the substance and un-reacted portions of the reactant are directed to a sensor. The sensor produces an output signal in response to detection of both the u
A method wherein a reactant is added to a substance to react with such substance. The product of such reaction along with un-reacted portions of the substance and un-reacted portions of the reactant are directed to a sensor. The sensor produces an output signal in response to detection of both the un-reacted portions of the substance and the un-reacted portions of the reactant. The method includes changing the amount of reactant added to the substance. A measurement is made to determine whether the change in the amount of reactant and the change the output signal are in the same direction or in opposite directions. A processor is provided for controlling the addition of a reactant to a substance to react with such substance. The product of such reaction along with un-reacted portions of the substance and un-reacted portions of the reactant are directed to a sensor. The sensor produces an output signal in response to detection of both the un-reacted portions of the substance and the un-reacted portions of the reactant. The processor changes the amount of reactant added to the substance; such processor being programmed to: determine whether the change in the amount of reactant and the change the output signal are in the same direction or in opposite directions. With such arrangement, the processor uses the product of the change in reactant and output signal to correct the nominal urea:NOx ratio.
대표청구항
▼
A method wherein a reactant is added to a substance to react with such substance. The product of such reaction along with un-reacted portions of the substance and un-reacted portions of the reactant are directed to a sensor. The sensor produces an output signal in response to detection of both the u
A method wherein a reactant is added to a substance to react with such substance. The product of such reaction along with un-reacted portions of the substance and un-reacted portions of the reactant are directed to a sensor. The sensor produces an output signal in response to detection of both the un-reacted portions of the substance and the un-reacted portions of the reactant. The method includes changing the amount of reactant added to the substance. A measurement is made to determine whether the change in the amount of reactant and the change the output signal are in the same direction or in opposite directions. A processor is provided for controlling the addition of a reactant to a substance to react with such substance. The product of such reaction along with un-reacted portions of the substance and un-reacted portions of the reactant are directed to a sensor. The sensor produces an output signal in response to detection of both the un-reacted portions of the substance and the un-reacted portions of the reactant. The processor changes the amount of reactant added to the substance; such processor being programmed to: determine whether the change in the amount of reactant and the change the output signal are in the same direction or in opposite directions. With such arrangement, the processor uses the product of the change in reactant and output signal to correct the nominal urea:NOx ratio. 0, Douta et al.; US-6079204, 20000600, Sun et al.; US-6092021, 20000700, Ehlbeck et al.; US-6092369, 20000700, Hosogai et al.; US-6101809, 20000800, Ishuzuka et al.; US-6102019, 20000800, Brooks; US-6105365, 20000800, Deeba et al.; US-6119448, 20000900, Emmerling et al., 060/274; US-6119449, 20000900, Kohler; US-6128899, 20001000, Oono et al.; US-6134883, 20001000, Kato et al.; US-6138453, 20001000, Sawada et al.; US-6145302, 20001100, Zhang et al.; US-6145305, 20001100, Itou et al.; US-6148611, 20001100, Sato; US-6148612, 20001100, Yamashita et al.; US-6161378, 20001200, Hanaoka et al.; US-6161428, 20001200, Esteghlal et al.; US-6164064, 20001200, Pott; US-6189523, 20010200, Weisbrod et al.; US-6199373, 20010300, Hepburn et al.; US-6202406, 20010300, Griffin et al.; US-6205773, 20010300, Suzuki; US-6214207, 20010400, Miyata et al.; US-6216448, 20010400, Schnaibel et al.; US-6216451, 20010400, Schnaibel et al.; US-6233923, 20010500, Itou et al.; US-6237330, 20010500, Takahashi et al.; US-6244046, 20010600, Yamashita; US-6314723, 20011100, Ketterer et al., 060/277
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