On-board automotive exhaust catalyst monitoring with a calorimetric sensor
First Claim
1. A method of diagnosing the performance of an on-board catalytic converter for the oxidation of carbon monoxide (CO) and unburned hydrocarbons (HC) in the exhaust stream of an operating automotive vehicle powered by a hydrocarbon or alcohol fuel and on which vehicle the engine fuel supply is managed by operation of on-board computer means, comprisingproducing an electrical signal from a calorimetric sensor located in the exhaust stream flow of said vehicle downstream from said converter, said sensor comprising a first element bearing an oxidation catalyst for CO and HC and an adjacent second element that is oxidation catalyst-free but otherwise substantially identical in mass and exhaust stream profile to the first element, the electrical signal being directly related to a temperature difference between said elements,monitoring vehicle engine air-to-fuel ratio, said calorimetric sensor temperature and exhaust gas flow rate in said computer means, andreading said sensor signal in said computer means for diagnosis of the oxidative performance of said converter only when said parameters are of predetermined values productive of a signal useful for said diagnosis.
1 Assignment
0 Petitions
Accused Products
Abstract
A calorimetric sensor comprising closely spaced, similarly constructed catalyzed (oxidation catalyst) and uncatalyzed members can be placed in the exhaust gas stream of an automotive engine downstream of a catalytic converter to aid assessment of the efficacy of the converter, especially when the exhaust is hot and at an appreciable steady flow rate and the engine is operating at the stoichiometric air-to-fuel ratio or lean of such ratio.
47 Citations
7 Claims
-
1. A method of diagnosing the performance of an on-board catalytic converter for the oxidation of carbon monoxide (CO) and unburned hydrocarbons (HC) in the exhaust stream of an operating automotive vehicle powered by a hydrocarbon or alcohol fuel and on which vehicle the engine fuel supply is managed by operation of on-board computer means, comprising
producing an electrical signal from a calorimetric sensor located in the exhaust stream flow of said vehicle downstream from said converter, said sensor comprising a first element bearing an oxidation catalyst for CO and HC and an adjacent second element that is oxidation catalyst-free but otherwise substantially identical in mass and exhaust stream profile to the first element, the electrical signal being directly related to a temperature difference between said elements, monitoring vehicle engine air-to-fuel ratio, said calorimetric sensor temperature and exhaust gas flow rate in said computer means, and reading said sensor signal in said computer means for diagnosis of the oxidative performance of said converter only when said parameters are of predetermined values productive of a signal useful for said diagnosis.
-
2. A method of diagnosing the performance of an on-board catalytic converter for the oxidation of carbon monoxide (CO) and unburned hydrocarbons (HC) in the exhaust stream of an operating automotive vehicle powered by a gasoline-fueled engine and on which vehicle the engine fuel supply is managed by operation of on-board computer means, comprising
producing an electrical signal from a calorimetric sensor located in the exhaust stream flow of said vehicle downstream from said converter, said sensor comprising a first element bearing an oxidation catalyst for CO and HC and an adjacent second element that is oxidation catalyst-free but otherwise substantially identical in thermal mass and exhaust stream profile to the first element, the electrical signal being directly related to a temperature difference between said elements, monitoring vehicle engine air-to-fuel ratio, said calorimetric sensor temperature and exhaust gas flow rate in said computer means, and reading said sensor signal in said computer means for diagnosis of the oxidative performance of said converter only when said air-to-fuel ratio is at or lean with respect to the stoichiometric ratio, the exhaust gas temperature at said sensor is in the range of 300° - C. to 450°
C. and the exhaust flow is at an above engine idle flow rate.
- C. to 450°
-
3. A method of diagnosing the performance of an on-board catalytic converter for the oxidation of carbon monoxide (CO) and unburned hydrocarbons (HC) in the exhaust stream of an operating automotive vehicle powered by a hydrocarbon or alcohol fuel and on which vehicle the engine fuel supply is managed by operation of on-board computer means, comprising
operating the vehicle at a steady cruise speed in an engine and exhaust warmed-up condition and at an engine air-to-fuel ratio at or lean of the stoichiometric air-to-fuel ratio, producing an electrical signal from a calorimetric sensor located in the exhaust stream flow of said vehicle downstream from said converter, said sensor comprising a first element bearing an oxidation catalyst for CO and HC and an adjacent second element that is oxidation catalyst-free but otherwise substantially identical in mass and exhaust stream profile to the first element, the electrical signal being directly related to a temperature difference between said elements, and reading said sensor signal in said computer means for diagnosis of the oxidative performance of said converter only during said operating step.
-
4. A method of diagnosing the performance of an on-board catalytic converter for the oxidation of carbon monoxide (CO) and unburned hydrocarbons (HC) in the exhaust stream of an operating automotive vehicle powered by a hydrocarbon or alcohol fuel and on which vehicle the engine fuel supply is managed by operation of on-board computer means, comprising
producing an electrical signal from a calorimetric sensor located in the exhaust stream flow of said vehicle downstream from said converter, said sensor comprising a first element bearing an oxidation catalyst for CO and HC and an adjacent second element that is oxidation catalyst-free but otherwise substantially identical in mass and exhaust stream profile to the first element, said first and second elements each comprising a particulate metal oxide washcoat carried on an alumina whisker-bearing, aluminum-containing stainless steel foil, the electrical signal being directly related to a temperature difference between said elements, monitoring vehicle engine air-to-fuel ratio, said calorimetric sensor temperature and exhaust gas flow rate in said computer means, and reading said sensor signal in said computer means for diagnosis of the oxidative performance of said converter when said parameters are of predetermined values productive of a signal useful for said diagnosis.
Specification