A system and a method for controlling NOx may include predicting NOx generation amount by using a virtual sensor; comparing the NOx prediction amount with a predetermined NOx target amount; and controlling the NOx generation amount so as for the NOx prediction amount to follow the NOx target amount.
A system and a method for controlling NOx may include predicting NOx generation amount by using a virtual sensor; comparing the NOx prediction amount with a predetermined NOx target amount; and controlling the NOx generation amount so as for the NOx prediction amount to follow the NOx target amount.
대표청구항▼
1. A method for controlling nitrogen oxide (NOx), comprising: predicting a NOx generation amount using a virtual sensor;comparing the predicted NOx generation amount with a predetermined NOx target amount; andcontrolling NOx generation so that the predicted NOx generation amount follows the NOx targ
1. A method for controlling nitrogen oxide (NOx), comprising: predicting a NOx generation amount using a virtual sensor;comparing the predicted NOx generation amount with a predetermined NOx target amount; andcontrolling NOx generation so that the predicted NOx generation amount follows the NOx target amount,wherein said predicting the NOx generation amount comprises: calculating NO generation rate by using a combustion pressure of an engine and driving variables of the engine;obtaining NO generation period by using the combustion pressure of the engine;calculating NO generation amount based on the NO generation rate and the NO generation period; andpredicting the NOx generation amount by obtaining NO2 generation amount based on a ratio between NO and NO2 according to the NO generation amount and a driving condition of the engine. 2. The method of claim 1 being repeated continuously during running of a vehicle. 3. The method of claim 1, wherein the NOx generation is controlled such that a vehicle enters a fuel consumption mode or an output improve mode when the predicted NOx generation amount is smaller than the NOx target amount, and the vehicle enters an exhaust mode when the predicted NOx generation amount is larger than the NOx target amount. 4. The method of claim 1, wherein control of the NOx generation amount is performed by controlling at least one of a fuel amount, a fuel injection timing, an EGR rate, and a boost pressure. 5. The method of claim 1, wherein the driving variables of the engine include at least one of a fuel amount, an engine speed (RPM), an air/fuel ratio (AF), and an EGR information. 6. The method of claim 5, wherein the NO generation rate is calculated from: ⅆ[NO]ⅆt=AT12exp(BT)[O2]12[N2],wherein the d[NO]/dt is the NO generation rate to a time, the T is a burned gas temperature, the [O2] is an oxygen concentration in a combustion chamber, the [N2] is nitrogen concentration in the combustion chamber, and the A and the B are constants. 7. The method of claim 5, wherein the NO generation period is obtained by using an MFB 40-80 region or an MFB 50-90 region. 8. A system for controlling nitrogen oxide (NOx), comprising: a measuring portion for predicting a NOx generation amount using a virtual sensor;a determining portion for comparing the predicted NOx generation amount with a predetermined NOx target amount; anda control portion for controlling the predicted NOx generation amount to follow the NOx target amount,wherein the virtual sensor is adapted to calculate NO generation rate by using a combustion pressure of an engine and driving variables of the engine, to obtain NO generation period by using the combustion pressure of the engine, to calculate NO generation amount based on the NO generation period, and to predict the NOx generation amount by obtaining NO2 generation amount based on a ratio between NO and NO2 according to the NO generation amount and a driving condition of the engine. 9. The system of claim 8, wherein the control portion is adapted to control a vehicle to enter a fuel consumption or an output improve mode when the predicted NOx generation amount is smaller than the NOx target amount, and to control the vehicle to enter an exhaust mode when the predicted NOx generation amount is larger than the NOx target amount. 10. The system of claim 8, wherein the control portion controls the NOx generation amount by controlling at least one of a fuel amount, a fuel injection timing, an EGR rate, and a boost pressure. 11. The system of claim 8, wherein the driving variables of the engine includes at least one of a fuel amount, an engine speed (RPM), an air/fuel ratio (AF), and an EGR information. 12. The system of claim 11, wherein the NO generation rate is calculated from: ⅆ[NO]ⅆt=AT12exp(BT)[O2]12[N2],wherein the d[NO]/dt is the NO generation rate to a time, the T is a burned gas temperature, the [O2] is an oxygen concentration in a combustion chamber, the [N2] is nitrogen concentration in the combustion chamber, and the A and the B are constants. 13. The system of claim 11, wherein the NO generation period is obtained by using an MFB 40-80 region or an MFB 50-90 region.
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이 특허에 인용된 특허 (1)
Mehendale, Charudatta Subhash; Smith, Gordon Raymond, System and method for obtaining an optimal estimate of NOx emissions.
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