Cg. Kim et al., Importance of inter-ring crevice volume as a source of unburned hydrocarbon emissions - numerical considerations, P I MEC E D, 214(D4), 2000, pp. 395-403
Citations number
13
Categorie Soggetti
Mechanical Engineering
Journal title
PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART D-JOURNAL OF AUTOMOBILE ENGINEERING
The influence of the inter-ring crevice, the volume between the top and the
second piston rings, on unburned hydrocarbon (UHC) emissions has been nume
rically investigated with the aid of experimental results. The main goal of
this study was to estimate the level of UHC emissions induced by the blow-
up of the unburned gas trapped in the inter-ring crevice (inter-ring mixtur
e). For this purpose, the relationship between the inter-ring mixture and U
HC emissions was established from the experimental results. A physical flow
model integrated with a ring dynamics model was constructed to predict the
gas flows through the inter-ring crevice.
Calculated results showed that some of the inter-ring mixture returned to t
he combustion chamber, while the cylinder pressure fell below the inter-rin
g pressure late in the expansion stroke. The amount of inter-ring mixture r
eturning to the combustion chamber after exhaust valve open was calculated
and converted to the corresponding UHC emissions using the relationship bet
ween the inter-ring mixture and UHC emissions obtained from the experiments
. The calculated level of UHC emissions caused by the inter-ring mixtures w
as 10-30 per cent of the entire UHC emissions over a range of speeds (1250-
3500 r/min) and loads [185-556 kPa brake mean effective pressure (b.m.e.p.)
]. The contribution was highest at the medium speed and medium load (2500 r
/min and 432 kPa b.m.e.p.) for the test condition, which corresponds to the
engine condition frequently required for normal running. These findings co
nfirm the importance of inter-ring crevice volume in the UHC emissions in s
park ignition engines.