Patent ID: 6244046
Filing Date: 2001-06-12
Classification: F01N,F02B,F02D

Abstract:
An exhaust purification system for an internal combustion engine having a NOx catalyst, which is provided in an exhaust system of the internal combustion engine and has a function of occluding NOx discharged from the internal combustion engine and purifying the occluded NOx when an air-fuel ratio is at a stoichiometric ratio or on a rich side, the system comprising:temperature increasing means for increasing temperature of the NOx catalyst by variably setting an air-fuel ratio control parameter for controlling the air-fuel ratio to be alternately lean and rich with respect to the stoichiometric ratio when a NOx occlusion amount which can be occluded by the NOx catalyst is lower than a predetermined value;catalyst regenerating means for regenerating the NOx catalyst by controlling the air-fuel ratio to the stoichiometric ratio or to the rich side after temperature increasing operation;deterioration detecting means for detecting deterioration of the NOx catalyst, wherein the temperature increasing means and the catalyst regenerating means are operative when the deterioration of the NOx catalyst is detected;an oxygen concentration sensor which is disposed downstream of the NOx catalyst and senses concentration of oxygen in exhaust gases, wherein the deterioration detecting means includes estimating means for estimating a NOx occluding power of the NOx catalyst based on an output of the oxygen concentration sensor when the air-fuel ratio is on the rich side, and the deterioration of the catalyst is detected based on the estimated NOx occluding power of the NOx catalyst;wherein the deterioration detecting means includes NOx purification ratio calculating means for calculating a NOx purification ratio of the NOx catalyst from the ratio between the NOx amount flowing in the NOx catalyst at the time of the lean combustion control and the rich gas amount required to purify NOx by the NOx catalyst at the time of the rich combustion control, and detects the deterioration of the NOx catalyst on the basis of the calculated NOx purification ratio,an upstream sensor which is provided upstream of the NOx catalyst and senses concentration of oxygen in the exhaust gases; anda downstream sensor which is provided downstream of the NOx catalyst and senses the concentration of oxygen in the exhaust gases,wherein the NOx purification ratio calculating means includes:means for calculating an inflow amount A of NOx flowing in the NOx catalyst at the time of the lean combustion control on the basis of the sensing result of the upstream sensor;means for calculating an inflow amount B of rich gas flowing in the NOx catalyst at the time of the rich combustion control on the basis of the sensing result of the upstream sensor; andmeans for calculating an amount C of excess rich gases emitted from the NOx catalyst at the time of the rich combustion control on the basis of the sensing result of the downstream sensor, andthe NOx purification ratio calculating means calculates the NOx purification ratio based on the calculated NOx inflow amount A at the time of the lean combustion control, the rich gas inflow amount B and the surplus gas amount C.