HCCI Combustion Using Charge Stratification for Combustion
Journal article, 2007
This work evaluates the effect of charge stratification on
combustion phasing, rate of heat release and emissions
for HCCI combustion. Engine experiments in both optical
and traditional single cylinder engines were carried out
with PRF50 as fuel. The amount of stratification as well
as injection timing of the stratified charge was varied.
It was found that a stratified charge can influence
combustion phasing, increasing the stratification amount
or late injection timing of the stratified charge leads to an
advanced CA50 timing. The NOX emissions follows the
CA50 advancement, advanced CA50 timing leads to
higher NOX emissions. Correlation between CA50 can
also be seen for HC and CO emissions when the
injection timing was varied, late injection and thereby
advanced CA50 timing leads to both lower HC and CO
emissions. This trend can not be seen when the
stratification amount was varied, increased stratification
amount leads to higher CO emission and for operating
condition with late CA50 timing the HC emissions also
increase with increasing stratification amount. Optical
studies, with high speed CCD camera, show that an
increase in stratification leads to poor combustion quality
near the cylinder walls, due to leaner mixtures near the
cylinder walls and this results in higher HC and CO
emissions.
The maximum rate of heat release depends on
stratification amount - a larger amount gives a lower rate
of heat release but the main heat release is advanced.
Varied injection timing results in different phasing of the
main heat releases.
The use of charge stratification for HCCI combustion can
lead to a larger operating range, due to its effect on
combustion phasing and rate of heat release, since the
upper load range is partly restricted by too high rates of
heat release leading to high pressure oscillations and
the lower load to late combustion phasing leading to
high cycle-to-cycle variations.
HCCI
Stratification
Control