Catalyst light off transitions in a gasoline engine using model predictive control

US 9,587,573 B2
Filed: 03/26/2014
Issued: 03/07/2017
Est. Priority Date: 03/26/2014
Status: Active Grant

First Claim

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1. A system comprising:

a catalyst light-off circuit configured to selectively generate a first signal based on an engine coolant temperature and an estimated exhaust enthalpy;

a setpoint circuit configured to selectively initiate a catalyst light-off period in response to receiving the first signal and that generates a desired exhaust enthalpy;

a first model predictive control (MPC) circuit configured to;

predict an exhaust enthalpy based on a model of an engine and multiple sets of possible target values;

generate a respective cost for each of the sets of possible target values based on differences between the predicted exhaust enthalpy and the desired exhaust enthalpy; and

select a set of possible target values from the multiple sets of possible target values based on the respective costs; and

an actuator circuit configured to adjust an actuator of the engine based on at least one of the target values from the selected set of possible target values.

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Abstract

A system includes a catalyst light-off module that selectively generates a first signal based on an engine coolant temperature and an estimated exhaust enthalpy, a setpoint module that selectively initiates a catalyst light-off period in response to receiving the first signal and that generates a desired exhaust enthalpy, and a first model predictive control (MPC) module that generates predicted parameters based on a model of an engine and a set of possible target values, generates a cost for the set of possible target values based on the predicted parameters and the desired exhaust enthalpy, and selects the set of possible target values from multiple sets of possible target values based on the cost. The system also includes an engine actuator module that adjusts an actuator of the engine based on at least one of the target values.

190 Citations

14 Claims

1. A system comprising:
- a catalyst light-off circuit configured to selectively generate a first signal based on an engine coolant temperature and an estimated exhaust enthalpy;
  
  a setpoint circuit configured to selectively initiate a catalyst light-off period in response to receiving the first signal and that generates a desired exhaust enthalpy;
  
  a first model predictive control (MPC) circuit configured to;
  
  predict an exhaust enthalpy based on a model of an engine and multiple sets of possible target values;
  
  generate a respective cost for each of the sets of possible target values based on differences between the predicted exhaust enthalpy and the desired exhaust enthalpy; and
  
  select a set of possible target values from the multiple sets of possible target values based on the respective costs; and
  
  an actuator circuit configured to adjust an actuator of the engine based on at least one of the target values from the selected set of possible target values.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The system of claim 1 wherein the cost increases as the difference between the desired exhaust enthalpy and the predicted exhaust enthalpy increases.
  - 3. The system of claim 2 wherein the first MPC circuit is configured to select the one of the sets of possible target values that has the lowest cost.
  - 4. The system of claim 1 wherein the setpoint circuit is configured to generate the desired exhaust enthalpy based on at least one of a temperature of a catalyst in an exhaust system of the engine, a concentration of oxygen in the catalyst, and a concentration of emissions in the exhaust system downstream from the catalyst.
  - 5. The system of claim 4 wherein the setpoint circuit is configured to adjust the desired exhaust enthalpy to minimize a catalyst light-off period that begins when the engine is started and ends when the catalyst temperature is equal to a light-off temperature.
  - 6. The system of claim 5 wherein the setpoint circuit is configured to adjust the desired exhaust enthalpy to minimize an amount of emissions in exhaust gas produced by the engine during the catalyst light-off period.
  - 7. The system of claim 1 further comprising an exhaust enthalpy circuit configured to estimate a present exhaust enthalpy based on a mass flow rate of exhaust gas produced by the engine, a temperature of the exhaust gas, and a chemical composition of the exhaust gas, wherein the first MPC circuit is configured to generate the predicted exhaust enthalpy based on the present exhaust enthalpy.

8. A method comprising:
- selectively generating a first signal based on an engine coolant temperature and an estimated exhaust enthalpy;
  
  selectively initiating a catalyst light-off period in response to receiving the first signal;
  
  selectively generating a desired exhaust enthalpy;
  
  generating multiple sets of possible target values;
  
  predicting an exhaust enthalpy based on a model of an engine and the multiple sets of possible target values;
  
  generating a respective cost for each of the sets of possible target values based on differences between the predicted exhaust enthalpy and the desired exhaust enthalpy; and
  
  selecting a set of possible target values from the multiple sets of possible target values based on the respective costs; and
  
  adjusting an actuator of the engine based on at least one of the target values from the selected set of possible target values.
- View Dependent Claims (9, 10, 11, 12, 13, 14)
- - 9. The method of claim 8 further comprising the cost increases as the difference between the desired exhaust enthalpy and the predicted exhaust enthalpy increases.
  - 10. The method of claim 9 further comprising selecting the one of the sets of possible target values that has the lowest cost.
  - 11. The method of claim 8 further comprising generating the desired exhaust enthalpy based on at least one of a temperature of a catalyst in an exhaust system of the engine, a concentration of oxygen in the catalyst, and a concentration of emissions in an exhaust system downstream from the catalyst.
  - 12. The method of claim 11 further comprising adjusting the desired exhaust enthalpy to minimize a catalyst light-off period that begins when the engine is started and ends when the catalyst temperature is equal to a light-off temperature.
  - 13. The method of claim 12 further comprising adjusting the desired exhaust enthalpy to minimize an amount of emissions in exhaust gas produced by the engine during the catalyst light-off period.
  - 14. The method of claim 8 further comprising:
    - estimating a present exhaust enthalpy based on a mass flow rate of exhaust gas produced by the engine, a temperature of the exhaust gas, and a chemical composition of the exhaust gas; and
      
      generating the predicted parameters based on the present exhaust enthalpy.

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Current Assignee
GM Global Technology Operations LLC (General Motors Company)
Original Assignee
GM Global Technology Operations LLC (General Motors Company)
Inventors
Genslak, Robert J., Cygan, Gary Robert Jr.
Primary Examiner(s)
MATTHIAS, JONATHAN R

Application Number

US14/225,891
Publication Number

US 20150275792A1
Time in Patent Office

1,077 Days
Field of Search
US Class Current

1/1
CPC Class Codes

F02D 2041/1433   using a model or simulation...

F02D 2200/021   Engine temperature

F02D 2200/0802   Temperature of the exhaust ...

F02D 41/024   to increase temperature of ...

F02D 41/0255   to accelerate the warming-u...

F02D 41/1441   Plural sensors

F02D 41/1444   characterised by the charac...

F02D 41/1445   the characteristics being r...

F02D 41/1446   the characteristics being e...

F02D 41/1454   the characteristics being a...

Y02T 10/12   Improving ICE efficiencies

Catalyst light off transitions in a gasoline engine using model predictive control

First Claim

1 Assignment

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Abstract

190 Citations

14 Claims

Specification

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Catalyst light off transitions in a gasoline engine using model predictive control

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

190 Citations

14 Claims

Specification

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Solutions

Use Cases

Quick Links