Catalyst temperature estimation device
First Claim
Patent Images
1. A catalyst temperature estimation device, comprising:
- a catalytic converter carrying a catalyst disposed in an exhaust passage of an engine for converting exhaust gases to less harmful substances;
an adsorbed unburnt-fuel-component quantity calculation element for calculating the amount of an unburnt fuel component adsorbed on the catalyst in a fuel cut period of the engine based on a number of all adsorption sites, which is determined depending on an activated state of the catalytic converter capable of adsorbing the unburnt fuel component;
an exhaust O2 quantity calculation element for calculating the amount of O2 in the exhaust gases in the fuel cut period;
an oxidation reaction heat calculation element for calculating reaction heat produced when the adsorbed unburnt fuel component in the amount calculated by the adsorbed unburnt-fuel-component quantity calculation element reacts with O2 in the exhaust gases in the amount calculated by the exhaust O2 quantity calculation element; and
a catalyst temperature estimation element for estimating the temperature of the catalyst in the fuel cut period, on the basis of the reaction heat calculated by the oxidation reaction heat calculation element.
2 Assignments
0 Petitions
Accused Products
Abstract
In a fuel cut period, an adsorbed CO quantity calculation section calculates the amount CATco of CO adsorbed on a catalyst, and an exhaust O2 quantity calculation section calculates the amount GASo2 of O2 in exhaust gases. CO oxidation reaction heat ΔHr produced when the calculated amount CATco of adsorbed CO reacts with the calculated amount GASo2 of O2 in the exhaust gases is calculated by a ΔHr calculation section, and used in estimation of the temperature of the catalyst.
3 Citations
12 Claims
-
1. A catalyst temperature estimation device, comprising:
-
a catalytic converter carrying a catalyst disposed in an exhaust passage of an engine for converting exhaust gases to less harmful substances; an adsorbed unburnt-fuel-component quantity calculation element for calculating the amount of an unburnt fuel component adsorbed on the catalyst in a fuel cut period of the engine based on a number of all adsorption sites, which is determined depending on an activated state of the catalytic converter capable of adsorbing the unburnt fuel component; an exhaust O2 quantity calculation element for calculating the amount of O2 in the exhaust gases in the fuel cut period; an oxidation reaction heat calculation element for calculating reaction heat produced when the adsorbed unburnt fuel component in the amount calculated by the adsorbed unburnt-fuel-component quantity calculation element reacts with O2 in the exhaust gases in the amount calculated by the exhaust O2 quantity calculation element; and a catalyst temperature estimation element for estimating the temperature of the catalyst in the fuel cut period, on the basis of the reaction heat calculated by the oxidation reaction heat calculation element. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
-
-
9. A catalyst temperature estimation device, comprising:
-
a catalytic converter carrying a catalyst disposed in an exhaust passage of an engine for converting exhaust gases to less harmful substances; an adsorbed unburnt-fuel-component quantity calculation element for calculating the amount of an unburnt fuel component adsorbed on the catalyst in a fuel cut period of the engine; an exhaust O2 quantity calculation element for calculating the amount of O2 in the exhaust gases in the fuel cut period; an oxidation reaction heat calculation element for calculating reaction heat produced when the adsorbed unburnt fuel component in the amount calculated by the adsorbed unburnt-fuel-component quantity calculation element reacts with O2 in the exhaust gases in the amount calculated by the exhaust O2 quantity calculation element; a catalyst temperature estimation element for estimating the temperature of the catalyst in the fuel cut period, on the basis of the reaction heat calculated by the oxidation reaction heat calculation element; an operating state detection element for detecting the operating state of the engine; an O2 storage index calculation element for calculating an O2 storage index correlating with the amount of O2 adsorbed on the catalyst; an air-fuel ratio estimation element for estimating air-fuel ratio on the catalyst; and a conversion reaction heat calculation element for calculating reaction heat produced by a conversion reaction on the catalyst in a fuel recovery period of the engine, on the basis of the operating state of the engine detected by the operating state detection element, the O2 storage index calculated by the O2 storage index calculation element, and the air-fuel ratio estimated by the air-fuel ratio estimation element, wherein the catalyst temperature estimation element estimates the temperature of the catalyst in the fuel cut period on the basis of the reaction heat calculated by the oxidation reaction heat calculation element, and in the fuel recovery period on the basis of the reaction heat calculated by the conversion reaction heat calculation element wherein, when, from the O2 storage index calculated by the O2 storage index calculation element, determining that the catalyst is at a level close to the upper or lower limit of O2 adsorption, the air-fuel ratio estimation element determines that the air-fuel ratio on the catalyst equals the exhaust air-fuel ratio detected by an exhaust air-fuel ratio detection element, and when determining that the catalyst is not at a level close to the upper or lower limit of adsorption, determines that the air-fuel ratio on the catalyst is the stoichiometric air-fuel ratio.
-
-
10. A catalyst temperature estimation device, comprising:
-
a catalytic converter carrying a catalyst disposed in an exhaust passage of an engine for converting exhaust gases to less harmful substances; an adsorbed unburnt-fuel-component quantity calculation element for calculating the amount of an unburnt fuel component adsorbed on the catalyst in a fuel cut period of the engine; an exhaust O2 quantity calculation element for calculating the amount of O2 in the exhaust gases in the fuel cut period; an oxidation reaction heat calculation element for calculating reaction heat produced when the adsorbed unburnt fuel component in the amount calculated by the adsorbed unburnt-fuel-component quantity calculation element reacts with O2 in the exhaust gases in the amount calculated by the exhaust O2 quantity calculation element; a catalyst temperature estimation element for estimating the temperature of the catalyst in the fuel cut period, on the basis of the reaction heat calculated by the oxidation reaction heat calculation element; and a reaction rate calculation element for calculating the reaction rate at which the unburnt fuel component on the catalyst reacts with O2 in the exhaust gases, on the basis of the activated state of the catalyst, wherein the oxidation reaction heat calculation element calculates the reaction heat on the basis of the smallest one of the amount of the unburnt fuel component adsorbed, the amount of O2 in the exhaust gases, and the reaction rate calculated.
-
-
11. A catalyst temperature estimation device, comprising:
-
a catalytic converter carrying a catalyst disposed in an exhaust passage of an engine for converting exhaust gases to less harmful substances; an adsorbed unburnt-fuel-component quantity calculation element for calculating the amount of an unburnt fuel component adsorbed on the catalyst in a fuel cut period of the engine; an exhaust O2 quantity calculation element for calculating the amount of O2 in the exhaust gases in the fuel cut period; an oxidation reaction heat calculation element for calculating reaction heat produced when the adsorbed unburnt fuel component in the amount calculated by the adsorbed unburnt-fuel-component quantity calculation element reacts with O2 in the exhaust gases in the amount calculated by the exhaust O2 quantity calculation element; a catalyst temperature estimation element for estimating the temperature of the catalyst in the fuel cut period, on the basis of the reaction heat calculated by the oxidation reaction heat calculation element; an adsorption rate calculation element for calculating the adsorption rate at which the unburnt fuel component is adsorbed onto the catalyst in the fuel cut period; and a desorption rate calculation element for calculating the desorption rate at which the unburnt fuel component is desorbed from the catalyst in the fuel cut period, wherein the adsorbed unburnt-fuel-component quantity calculation element calculates the amount of the unburnt fuel component adsorbed on the catalyst, on the basis of the adsorption rate calculated by the adsorption rate calculation element and the desorption rate calculated by the desorption rate calculation element. - View Dependent Claims (12)
-
Specification