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Technical Paper

Thermal Management of a Four-way Catalyst System with Alternative Combustions for Achieving Future Emissions Standard

2007-09-16
2007-24-0103
Four-way catalyst system consisting of diesel oxidation catalyst (DOC), diesel particulate filter (DPF) and lean NOx trap (LNT) with alternative combustion such as low temperature combustion (LTC) and premixed controlled compression ignition (PCCI) is one of the effective ways to achieve the US Tier 2 Bin 5 and future European emissions for light duty diesel vehicles. However, thermal responses such as substrate temperature and temperature gradient of each catalyst component in the exhaust treatment system are different under different combustion modes and operation conditions. One exhaust treatment component's performance or durability can not be sacrificed for the sake of another. In this paper, thermal management strategies for exhaust treatment component temperature and temperature gradient by controlling lean and rich conditions of low temperature combustions as well as premixed controlled combustion, EGR rate and exhaust flow are demonstrated on a Renault G9T600 engine.
Technical Paper

Evaluation of a Direct-Injected Stratified Charge Combustion System Using Tracer PLIF

2004-03-08
2004-01-0548
A PLIF measurement system was designed and applied for imaging direct-injected stratified charge fuel preparation. An extensive measurement plane was achieved through novel design features in the system. Measurement and processing uncertainties were assessed at ±15% for the semi-quantitative fuel density. Tracer selection among suggested iso-octane candidates was found not to have a significant effect on PLIF results under the conditions tested. Stratified charge fuel distribution images were acquired for three piston and fuel injector combinations. The effect of piston design in guiding the fuel mixture position was most notable. Fuel distribution features correlated reasonably well with measured data from a thermodynamic engine of similar design.
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