Dynamic Surface Control of Engine Exhaust Hydrocarbons and Catalyst Temperature for Reduced Coldstart Emissions
نویسندگان
چکیده
Almost three quarters of the hydrocarbon (HC) emissions emitted by an automobile in a typical drive-cycle are produced during the first three minutes of its operation called the coldstart period. In this paper, we propose a way to decrease cold start emissions. A Model-Based paradigm is used to aid the generation of an efficient controller. The controller is built around a mean value engine model and a simplified catalyst model characterized by thermal dynamics, oxygen storage and static efficiency curves. It is shown that the control of engine-out exhaust gas temperature for faster catalyst light-off could be detrimental to the catalyst. A control scheme comprising engine-out hydrocarbon emissions control and catalyst temperature control through dynamic surface control is developed to reduce the tailpipe emissions. It is shown that reduced tailpipe emissions can be achieved without the risk of damaging the catalyst. Copyright c ©2005 IFAC.
منابع مشابه
Coldstart Engine Combustion Modelling to Control Hydrocarbon Emissions
Due to the large contribution of the coldstart process to unburned hydrocarbon emissions of an internal combustion engine during FTP cycle tests, we take a new look at the production of hydrocarbons inside the combustion chamber during coldstart. To this end a model is developed which predicts the exhaust port hydrocarbon concentration, exhaust gas temperature and equivalence ratio based on a s...
متن کاملSimplified Models of Engine Hc Emissions, Exhaust Temperature and Catalyst Temperature for Automotive Coldstart
The initial 1-2 minutes of operation of an automotive spark-ignition engine, commonly called as the ”coldstart” period, produces more than 75-80 % of the hydrocarbon (HC) emissions in a typical drive cycle. Model-based controller development requires accurate, yet simple, models that can run in realtime. Simple, intuitive models are developed to predict both tailpipe hydrocarbon (HC) emissions ...
متن کاملMimo Control for Automotive Coldstart
The problem of controlling combustion engine emissions during the coldstart period is addressed by designing a MIMO sliding mode controller. The task of the controller is to track a given set of desired profiles of engine-out hydrocarbon emissions and catalyst temperature using spark timing and fuel injection rate as the inputs. This is an important step in solving the coldstart problem. The th...
متن کاملDynamic modeling of a three-way catalyst for SI engine exhaust emission control
| Automotive emissions are severely regulated. Since 1980, a three-way catalyst (TWC) has been used to convert harmful emissions of hydrocarbons, carbon monoxide, and oxides of nitrogen into less harmful gases in order to meet these regulations. The TWC's e ciency of conversion of these gases is primarily dependent on the mass ratio of air to fuel (A=F ) in the mixture leaving the exhaust manif...
متن کاملA Simpli ed Three-Way Catalyst Model for Use in On-Board SI Engine Control and Diagnostics
* ABSTRACT Automotive emissions are severely regulated. Since 1980, a three-way catalyst (TWC) has been used to convert harmful emissions of hydrocarbons, carbon monoxide, and oxides of nitrogen into less harmful gases in order to meet these regulations. The e ciency of conversion of these gases is dependent on the mass ratio of air to fuel (A=F ) in the mixture leaving the exhaust manifold and...
متن کامل