Catalyst monitoring using a hydrocarbon sensor
First Claim
1. A method of on-board monitoring of an automotive vehicle catalyst effective to chemically convert a stream of exhaust gases from an internal combustion engine powering said vehicle, comprising:
- (a) periodically transferring a sample quantity of gas, taken from said stream at a location downstream of said catalyst, into a test chamber at a predetermined flow rate;
(b) exposing a hydrocarbon sensor to said sample quantity of gas to generate a signal in proportion to the content of hydrocarbon in said sample; and
(c) comparing said signal with a reference signal to determine if a predetermined difference exists and thereby concluding the catalyst is sufficiently degraded, said reference signal being provided by transferring another sample quantity of gas from said stream at a location upstream of said catalyst, into said test chamber at said predetermined flow rate to be exposed to said sensor, said transfer being arranged so that the chamber essentially contains exhaust gas from either the upstream or from the downstream flow, but not both.
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Accused Products
Abstract
An on-board monitoring system for an automotive emission catalyst has (i) a test chamber remote from the automobile'"'"'s engine exhaust gas stream; (ii) apparatus for supplying the chamber with sampled exhaust gases sequestered from the stream; (iii) a single hydrocarbon sensor exposed to the exhaust gas in the chamber to render a signal responsive to the concentration of hydrocarbon in the chamber; and (iv) apparatus for comparing the sensed signal with a reference signal, and, if a predetermined difference is exceeded, the catalyst is indicated as faulty. Apparatus (ii) has a supply channel interconnected between the chamber and the gas stream upstream of the catalytic converter, a supply channel independently interconnected between the chamber and the gas stream downstream of the catalytic converter, and valve apparatus for permitting flow-through of no more than one channel to the chamber at any one moment, preferably cycled at a certain frequency. Method steps carried out by the system comprise: (a) periodically transferring a sample quantity of gas from the stream into a test chamber at a predetermined flow rate; (b) exposing a hydrocarbon sensor to the sequestered gas to generate a signal in proportion to the content of hydrocarbon in such gas; and (c) comparing the signal with a reference signal to determine if a predetermined difference exists and thereby conclude the catalyst is sufficiently degraded.
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Citations
8 Claims
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1. A method of on-board monitoring of an automotive vehicle catalyst effective to chemically convert a stream of exhaust gases from an internal combustion engine powering said vehicle, comprising:
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(a) periodically transferring a sample quantity of gas, taken from said stream at a location downstream of said catalyst, into a test chamber at a predetermined flow rate; (b) exposing a hydrocarbon sensor to said sample quantity of gas to generate a signal in proportion to the content of hydrocarbon in said sample; and (c) comparing said signal with a reference signal to determine if a predetermined difference exists and thereby concluding the catalyst is sufficiently degraded, said reference signal being provided by transferring another sample quantity of gas from said stream at a location upstream of said catalyst, into said test chamber at said predetermined flow rate to be exposed to said sensor, said transfer being arranged so that the chamber essentially contains exhaust gas from either the upstream or from the downstream flow, but not both. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method of on-board monitoring of a catalyst in an automotive exhaust gas stream having portions upstream and downstream of said catalyst, comprising:
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(a) automatically initiating a monitoring routine after a steady-state driving condition and preselected air/fuel window is obtained; (b) operating a valve, controlling transfer of an upstream sample of exhaust gas for a period of time in the range of 1-10 seconds, and storing a voltage output of a hydrocarbon sensor exposed to said upstream sample; (c) closing the valve associated with the upstream transfer and opening a valve controlling transfer of a downstream sample of exhaust gas sequestering for a period of time in the range of 1-10 seconds, a voltage output of said hydrocarbon sensor exposed to said downstream sample being stored; (d) repeating steps (b) and (c) to give average results; (e) calculating the efficiency of the catalyst by taking the quotient of said average results of the stored voltage signal for the upstream gas sample minus the stored voltage signal for the downstream gas sample divided by the stored voltage signal of the upstream gas sample and multiplied by 100; and (f) comparing said quotient with an appropriate reference quotient and determining if the difference is greater than 50% thereby indicating that the catalyst is defective to a predetermined degree.
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Specification