Regeneration of a particulate filter based on a particulate matter oxidation rate

摘要

An exhaust gas treatment system for an internal combustion engine is provided comprising an exhaust gas conduit, a particulate filter (“PF”) device, a hydrocarbon source and an electronic control module including operative logic which when implemented. The PF has a filter structure for removal of particulates in the exhaust gas and is selectively regenerated based on an amount of particulates trapped within the filter structure of the PF device. The control module is in communication with the internal combustion engine and the hydrocarbon source, and receives a regeneration signal indicating the amount of particulates trapped within the filter structure of the PF device. The electronic control module includes control logic for monitoring the internal combustion engine prior to a regeneration event. The electronic control module includes control logic for determining a plurality operating parameters of the internal combustion engine based on the monitoring.

主权项

1. An exhaust gas treatment system for an internal combustion engine, comprising:
an exhaust gas conduit in fluid communication with, and configured to receive an exhaust gas from, the internal combustion engine; a hydrocarbon source; a particulate filter (“PF”) device in fluid communication with the exhaust gas conduit and having a filter structure for removal of particulates in the exhaust gas, the PF device configured to be selectively regenerated based on an amount of particulates trapped within the filter structure of the PF device; an electric heater disposed upstream of the filter structure and in fluid communication with the exhaust gas conduit, the electric heater selectively energized to produce heat during a regeneration event; and an electronic control module including operative logic which when implemented and in communication with the internal combustion engine and the hydrocarbon source, the electronic control module selectively receiving a regeneration signal indicating the amount of particulates trapped within the filter structure of the PF device, the control module programmed to:
(a) monitor the internal combustion engine and the exhaust gas treatment system prior to a regeneration event;(b) determine a plurality operating parameters based on the monitoring;(c) determine a particulate matter oxidation rate of the PF device based on the plurality of operating parameters, wherein the plurality of operating parameters include a particulate matter rate, an exhaust flow, and a hydrocarbon slip;(d) modify operation of the hydrocarbon source if the regeneration signal is received to increase an exhaust gas temperature to an exhaust gas setpoint, the exhaust gas regeneration setpoint based on the particulate matter oxidation rate of the PF device; and(e) energize the electric heater to produce heat during the regeneration event if the exhaust gas temperature is at the exhaust gas setpoint.