System and method for controlling exhaust stream temperature
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01N-003/00
F01N-003/10
G05B-013/02
출원번호
US-0229869
(2008-08-27)
등록번호
US-8245501
(2012-08-21)
발명자
/ 주소
He, Suhao
Heibel, Achim Karl-Erich
Qiu, Wenbin
출원인 / 주소
Corning Incorporated
대리인 / 주소
McNutt, Matthew B.
인용정보
피인용 횟수 :
7인용 특허 :
9
초록▼
Systems and methods are provided for controlling an exhaust stream temperature at a point along an exhaust system. The exhaust system can include an oxidation catalyst, a particulate filter having an outlet, and a fuel injector for injecting fuel into an exhaust stream at a location upstream from th
Systems and methods are provided for controlling an exhaust stream temperature at a point along an exhaust system. The exhaust system can include an oxidation catalyst, a particulate filter having an outlet, and a fuel injector for injecting fuel into an exhaust stream at a location upstream from the outlet. An adaptive control can be provided to model a portion of the exhaust system. A fuel injection flow rate at which fuel is injected into the exhaust stream by the fuel injector can be calculated based on the adaptive control model. An operation of the fuel injector can be controlled based on the calculated fuel injection flow rate, to control the exhaust stream temperature at point along the exhaust system. A condition of the exhaust stream can also monitored and an error in the adaptive control model can be determined based on the monitored condition. The adaptive control model can also be changed to reduce the error.
대표청구항▼
1. A method of controlling an exhaust stream temperature at a point along an exhaust system including an oxidation catalyst, a particulate filter including an outlet, and a fuel injector for injecting fuel into an exhaust stream at a location upstream from the outlet of the particulate filter, the m
1. A method of controlling an exhaust stream temperature at a point along an exhaust system including an oxidation catalyst, a particulate filter including an outlet, and a fuel injector for injecting fuel into an exhaust stream at a location upstream from the outlet of the particulate filter, the method comprising the steps of: providing an adaptive control model that models a portion of the exhaust system;calculating a desired fuel injection flow rate at which fuel is injected into the exhaust stream by the fuel injector, based on the adaptive control model;controlling an operation of the fuel injector based on the calculated fuel injection flow rate, to control the exhaust stream temperature at the point along the exhaust system;monitoring a condition of the exhaust stream, wherein the monitored condition is a temperature of the exhaust stream at the point along the exhaust system;determining a target temperature for the point along the exhaust system;calculating a difference between the target temperature for the point along the exhaust system and the exhaust stream temperature at the point along the exhaust system;providing a controller including a proportion gain and an integral gain;processing, by the controller, the calculated difference between the target temperature for the point along the exhaust system and the exhaust stream temperature at the point along the exhaust system, to determine a time derivative of the exhaust stream temperature at the point along the exhaust system; andproviding the time derivative to the adaptive control model;determining an expected temperature based on the adaptive control model;calculating a difference between the temperature of the exhaust stream and the expected temperature;determining an error in the adaptive control model based on the difference between the temperature of the exhaust stream and the expected temperature; andchanging the adaptive control model to reduce the error. 2. The method of claim 1, wherein the oxidation catalyst includes a diesel oxidation catalyst. 3. The method of claim 1, wherein the particulate filter includes a diesel particulate filter. 4. The method of claim 1, wherein the calculated fuel injection flow rate is a mass flow rate. 5. A method of controlling an exhaust stream temperature at a point along an exhaust system including an oxidation catalyst, a particulate filter including an outlet, and a fuel injector for injecting fuel into an exhaust stream at a location upstream from the outlet of the particulate filter, the method comprising the steps of: providing an adaptive control model that models a portion of the exhaust system;monitoring the exhaust stream temperature at the point along the exhaust system;determining a target temperature for the point along the exhaust system;calculating a difference between the target temperature for the point along the exhaust system and the exhaust stream temperature at the point along the exhaust system;providing a controller including a proportion gain and an integral gain;processing, by the controller, the calculated difference between the target temperature for the point along the exhaust system and the exhaust stream temperature at the point along the exhaust system, to determine a time derivative of the exhaust stream temperature at the point along the exhaust system;providing the time derivative to the adaptive control model, wherein the time derivative is a parameter of the adaptive control model;determining an expected temperature for the point along the exhaust system based on the adaptive control model;calculating a difference between the exhaust stream temperature at the point along the exhaust system and the expected temperature for the point along the exhaust system;determining an error in the adaptive control model based on the difference between the exhaust stream temperature at the point along the exhaust system and the expected temperature for the point along the exhaust system;changing the adaptive control model to reduce the error;calculating a fuel injection flow rate at which fuel is injected into the exhaust stream by the fuel injector, based on the adaptive control model; andcontrolling an operation of the fuel injector based on the calculated fuel injection flow rate, to control the exhaust stream temperature at the point along the exhaust system. 6. The method of claim 5, wherein the oxidation catalyst includes a diesel oxidation catalyst. 7. The method of claim 5, wherein the particulate filter includes a diesel particulate filter. 8. The method of claim 5, wherein the calculated fuel injection flow rate is a mass flow rate. 9. The method of claim 5, wherein the oxidation catalyst is provided in a catalytic converter that is located upstream from the particulate filter, and further wherein the portion of the exhaust system includes the catalytic converter. 10. The method of claim 9, wherein the catalytic converter has an outlet operationally connected to the particulate filter and an inlet, the method further comprising the step of: monitoring a plurality of catalytic converter inlet conditions including oxygen concentration in the exhaust stream, mass flow rate of the exhaust stream, and temperature of the exhaust stream,wherein the fuel injection flow rate is calculated based on at least one of the plurality of catalytic converter inlet conditions, andwherein the fuel is injected into the exhaust stream at a location upstream from the catalytic converter. 11. The method of claim 10, wherein the fuel injection flow rate is calculated based on a formula: MHC=3600×CP_S×MASSDOC×(ⅆTOUTⅆt)-CP_G×MEXH×(TIN-TOUT)MODEL_ADJ×(CP_G×(TIN-TOUT)+ΔH×CONV_EFF);and wherein the error in the adaptive control model is determined based on a formula: MODEL_ADJ=MODEL_ADJ_OLD+L×3600×CP_S×MASSDOC×(TOUT-TOUT_SIM)CP_G×MHC×(TIN-TOUT)+ΔH×MHC×CONV_EFF,where MHC is the fuel injection flow rate, CP—S is a substrate heat capacity, MASSDOC is a mass of the catalytic converter, TOUT is the exhaust stream temperature at the point along the exhaust system, CP—G is a gas heat capacity, MEXH is the mass flow rate of the exhaust stream, TIN is the temperature of the exhaust stream at the catalytic converter inlet, MODEL_ADJ is an adjustment parameter, ΔH is a heat of reaction, CONV_EFF is a conversion efficiency, MODEL_ADJ_OLD is another adjustment factor, L is an arbitrary coefficient, and TOUT—SIM is the expected temperature for the point along the exhaust system. 12. A method of controlling an exhaust stream temperature at a point along an exhaust system including a catalytic converter, a diesel particulate filter operationally connected to the catalytic converter and located downstream from the catalytic converter, and a fuel injector for injecting fuel into an exhaust stream at a location upstream from the catalytic converter, the method comprising the steps of: providing an adaptive control model that models a portion of the exhaust system, the portion including the catalytic converter;monitoring the exhaust stream temperature at the point along the exhaust system, wherein the point along the exhaust system is located between the catalytic converter and the diesel particulate filter;determining a target temperature for the point along the exhaust system;calculating a difference between the target temperature for the point along the exhaust system and the exhaust stream temperature at the point along the exhaust system;providing a controller including a proportion gain and an integral gain;processing, by the controller, the calculated difference between the target temperature for the point along the exhaust system and the exhaust stream temperature at the point along the exhaust system, to determine a time derivative of the exhaust stream temperature at the point along the exhaust system;providing the time derivative to the adaptive control model, wherein the time derivative is a parameter of the adaptive control model;determining an expected temperature for the point along the exhaust system based on the adaptive control model;calculating a difference between the exhaust stream temperature at the point along the exhaust system and the expected temperature for the point along the exhaust system;determining an error in the adaptive control model based on the difference between the exhaust stream temperature at the point along the exhaust system and the expected temperature for the point along the exhaust system;changing the adaptive control model to reduce the error;monitoring a plurality of catalytic converter inlet conditions including oxygen concentration in the exhaust stream, mass flow rate of the exhaust stream, and temperature of the exhaust stream;determining another parameter of the adaptive control model based on at least one of the plurality of catalytic converter inlet conditions;calculating a fuel injection flow rate at which fuel is injected into the exhaust stream by the fuel injector, based on the adaptive control model; andcontrolling an operation of the fuel injector based on the calculated fuel injection flow rate, to control the exhaust stream temperature at the point along the exhaust system. 13. A regeneration control system for an engine exhaust system, comprising: an oxidation catalyst;a particulate filter including an outlet;a fuel injector for injecting fuel into an exhaust stream at a location upstream from the outlet of the particulate filter, wherein the exhaust stream flows through the particulate filter; anda processor for controlling an operation of the fuel injector based on an adaptive control model that adaptively models a portion of the exhaust system, wherein the processor is programmed to: calculate a desired fuel injection flow rate based on the adaptive control model,control the operation of the fuel injector to control an exhaust stream temperature at a point along the exhaust system,determine an expected temperature,calculate a difference between a temperature of the exhaust stream and the expected temperature,determine an error in the adaptive control model based on the difference between the temperature of the exhaust stream and the expected temperature, andchange the adaptive control model to reduce the error; anda first temperature sensor for sensing a temperature at the point along the exhaust system, wherein the processor is further programmed to: calculate a difference between the temperature at the point along the exhaust system and a target temperature for the point along the exhaust system, andprocess the calculated difference between the temperature at the point along the exhaust system and the target temperature for the point along the exhaust system using a control algorithm including a proportional gain setting and an integral gain setting, to determine a time derivative of the exhaust stream temperature at the point along the exhaust system,wherein the time derivative of the exhaust stream temperature at the point along the exhaust system is a parameter of the adaptive control model. 14. The regeneration control system of claim 13, wherein the oxidation catalyst includes a diesel oxidation catalyst. 15. The regeneration control system of claim 13, wherein the particulate filter includes a diesel particulate filter. 16. The regeneration control system of claim 13, wherein the fuel injection flow rate is a mass flow rate. 17. The regeneration control system of claim 13, wherein the oxidation catalyst is provided in a catalytic converter that is located upstream from the particulate filter, and further wherein the portion of the exhaust system that is modeled by the adaptive control model includes the catalytic converter. 18. A regeneration control system for an engine exhaust system, comprising: a particulate filter including an outlet;an oxidation catalyst provided in a catalytic converter that is located upstream from the particulate filter;a fuel injector for injecting fuel into an exhaust stream at a location upstream from the outlet of the particulate filter, wherein the exhaust stream flows through the particulate filter;a first temperature sensor for sensing an exhaust stream temperature at a point along the exhaust system; anda processor for controlling an operation of the fuel injector based on an adaptive control model that adaptively models a portion of the exhaust system including the catalytic converter, wherein the processor is programmed to: calculate a difference between the exhaust stream temperature at the point along the exhaust system and a target temperature for the point along the exhaust system,process the calculated difference between the exhaust stream temperature at the point along the exhaust system and the target temperature for the point along the exhaust system using a control algorithm including a proportional gain setting and an integral gain setting, to determine a time derivative of the exhaust stream temperature at the point along the exhaust system, wherein the time derivative of the exhaust stream temperature at the point along the exhaust system is a parameter of the adaptive control model,determine an expected temperature for the point along the exhaust system,calculate a difference between the exhaust stream temperature at the point along the exhaust system and the expected temperature for the point along the exhaust system,determine an error in the adaptive control model based on the difference between the exhaust stream temperature at the point along the exhaust system and the expected temperature for the point along the exhaust system,change the adaptive control model to reduce the error,calculate a fuel injection flow rate based on the adaptive control model, andcontrol the operation of the fuel injector to control the exhaust stream temperature at the point along the exhaust system. 19. The regeneration control system of claim 18, wherein the oxidation catalyst includes a diesel oxidation catalyst. 20. The regeneration control system of claim 18, wherein the particulate filter includes a diesel particulate filter. 21. The regeneration control system of claim 18, wherein the fuel injection flow rate is a mass flow rate. 22. The regeneration control system of claim 18, wherein the catalytic converter has an outlet operationally connected to the particulate filter and an inlet, the control system further comprising: a second temperature sensor for sensing temperature of the exhaust stream at the inlet;an oxygen sensor for sensing oxygen concentration in the exhaust stream at the inlet; anda mass flow sensor for sensing a mass flow rate of the exhaust stream at the inlet,wherein the fuel injection flow rate is calculated based on the temperature of the exhaust stream at the inlet, the oxygen concentration in the exhaust stream at the inlet, and the mass flow rate of the exhaust stream at the inlet, andwherein the fuel is injected into the exhaust stream at a location upstream from the catalytic converter. 23. The regeneration control system of claim 22, wherein the fuel injection flow rate is calculated based on a formula: MHC=3600×CP_S×MASSDOC×(ⅆTOUTⅆt)-CP_G×MEXH×(TIN-TOUT)MODEL_ADJ×(CP_G×(TIN-TOUT)+ΔH×CONV_EFF);and wherein the error in the adaptive control model is determined based on a formula: MODEL_ADJ=MODEL_ADJ_OLD+L×3600×CP_S×MASSDOC×(TOUT-TOUT_SIM)CP_G×MHC×(TIN-TOUT)+ΔH×MHC×CONV_EFF,where MHC is the fuel injection flow rate, CP—S is a substrate heat capacity, MASSDOC is a mass of the catalytic converter, TOUT is the exhaust stream temperature at the point along the exhaust system, CP—G is a gas heat capacity, MEXH is the mass flow rate of the exhaust stream, TIN is the temperature of the exhaust stream at the inlet, MODEL_ADJ is an adjustment parameter, ΔH is a heat of reaction, CONV_EFF is a conversion efficiency, MODEL_ADJ_OLD is another adjustment factor, L is an arbitrary coefficient, and TOUT—SIM is the expected temperature at the point along the exhaust system.
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이 특허에 인용된 특허 (9)
Cullen Michael John ; Hieb Bradley John ; Davey Christopher K., Adaptive exhaust temperature estimation and control.
Stiglic Paul M. (Torrance CA) Gabelman Brian C. (Los Angeles CA) Hardy James A. (Playa Del Rey CA), Control system for diesel particulate trap regeneration system.
Tashiro, Yoshihisa; Imai, Takehito; Suzuki, Tsuneo; Ochi, Naofumi; Gabe, Masashi, Diesel particulate filter unit and regeneration control method of the same.
Glidewell John M. (Dearborn MI) Chui Granger K. (Dearborn Heights MI) Yang Woong-Chul (Ann Arbor MI), Internal combustion engine with on-board diagnostic system for detecting impaired fuel injectors.
Douglas, Scot A.; Paratore, Jr., Michael J.; Mullins, Jason Daniel; Barasa, Patrick, Exhaust system and method for controlling temperature of exhaust gas in an exhaust system.
Funk, Sarah; Larose, Jr., Thomas; Barasa, Patrick; Taylor, Michael V., System and method for controlling exhaust gas temperature during particulate matter filter regeneration.
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