Reduction of NOx Emissions from a Light Duty DI Diesel in Medium Load Conditions with High EGR Rates
Journal article, 2008
The expansion of current driving cycles for emission
regulations to higher load operation in the near future
(such as the US06 supplement to the FTP-75 driving
cycle) requires attention to low emission combustion
concepts in medium to high load regimes.
One possibility to reduce NO emissions is to increase
the EGR rate. The combustion-temperature reducing
effects of high EGR rates can significantly reduce NO
formation, to the point where engine-out NOx emissions
approach zero levels. However, engine-out soot and CO
emissions typically increase at high EGR levels, due to
the reduced soot and CO oxidation rates at reduced
combustion temperatures and oxygen concentrations.
The work presented in this paper focuses on different
strategies to reduce soot and CO emissions associated
with EGR rates of up to 50%, at which NO formation is
largely avoided, but combustion temperatures are not
low enough to consider the process as Low-
Temperature Combustion (LTC). The studied strategies
include use of high injection pressures (up to 1800 bar),
increased swirl and increased boost pressures. Using a
combination of these measures, soot emission levels
could be reduced to 0.04 g/kWh and NOx emissions to
0.34 g/kWh at a medium engine load of 10 bar IMEP in a
single cylinder research engine.
boost
NOx
swirl
piezo
Diesel
soot
EGR