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A Stochastic Reactor Based Virtual Engine Model employing Detailed Chemistry for Kinetic Studies of In-Cylinder Combustion and Exhaust
Aftertreatment
Poster location P-03
Karin Fröjd1, Simon Bjerkborn1, Cathleen Perlman1, Fabian Mauss2
1Lund Combustion Engineering, LOGE AB, Lund, Sweden, 2Brandenburg University of Technology — BTU, Cottbus, Germany
[email protected] www.loge.se
Virtual Engine Model
In-cylinder combustion TWC Piping
0.E+00
1.E-03
2.E-03
3.E-03
4.E-03
5.E-03
6.E-03
7.E-03
8.E-03
4.0 4.5 5.0 5.5 6.0 Time [s]
1 Hz YCO, in YCO, out
0.E+00
1.E-03
2.E-03
3.E-03
4.E-03
5.E-03
6.E-03
7.E-03
8.E-03
4.0 4.5 5.0 5.5 6.0 Time [s]
2 Hz YCO, in YCO, out
1 Hz 2 Hz
CO 44 % 68 %
NO 49 % 49 %
HC 85 % 84 %
Poster location P-03
Results: