| Modeling HCCI Combustion with High Levels of Residual Gas Fraction - A Comparison of Two VVA Strategies |
| Journal & Paper No: |
| SAE 2003-01-3220 |
| Authors: |
| Aristotelis Babajimopoulos, George A. Lavoie and Dennis N. Assanis |
| Abstract: |
Adjusting the Residual Gas Fraction (RGF) by means of
Variable Valve Actuation (VVA) is a strong candidate for
controlling the ignition timing in Homogeneous Charge
Compression Ignition (HCCI) engines. However, at high
levels of residual gas fraction, insufficient mixing can
lead to the presence of considerable temperature and
composition variations. This paper extends previous
modeling efforts to include the effect of RGF distribution
on the onset of ignition and the rate of combustion using
a multi-dimensional fluid mechanics code (KIVA-3V)
sequentially with a multi-zone code with detailed
chemical kinetics. KIVA-3V is used to simulate the gas
exchange processes, while the multi-zone code
computes the combustion event. It is shown that under
certain conditions the effect of composition stratification
is significant and cannot be captured by a single-zone
model or a multi-zone model using only temperature
zones. In light of these findings, KIVA-3V is also used to
compare two VVA strategies (negative valve overlap and
secondary exhaust valve opening) in terms of the mixing
quality of the internal EGR with the fresh charge. The
results indicate that for different valve strategies and
same amount of internal EGR, the degree of
temperature and composition stratification in the cylinder
can be quite different. |
| Paper: P2003_05.PDF |
Copyright
2008
University of Michigan