dissociation (before combustion of end-gas) makes the end-gas cooler before its combustion than it would have been without dissociation ?Brian Coat wrote:In the context we are discussing (over-fuelling in downsized+boosted engines to avoid knock?), I am not following how the AFR/dissociation relationship would affect anything, given that the end-gas is essentially uncombusted charge and the dissociation occurs during actual combustion?
so the detonation-limit boost would be higher than without dissociation ?
(ok it seems unreasonable if I have said that by chemical effects richness actually reduces dissociation)
aviation type fuel ratings summarise the gain in limit-boost realisable by using richer mixture but a high and fixed charge temperature
typical gain of the usual (high-aromatic) Avgas is 30% ie 100/130 rating
'default' motor fuel ie without significant aromatics shows eg 9% gain (that's really what the 80/87 Avgas spec is)
my point - fuel richness chemical effects on limit-boost are significant, the benefits of richness should not be attributed only to temperature
it would be very interesting to have more technical information on the reported emissions issue of these downsized engines
the easy suggestion is to lose the richness and a few of the peak bhp, and to comply with the intended more realistic emissions tests
imo
the downsized engines have torque/rpm characteristics inadequate for pleasant and good controllability at typical speed eg around 30 mph
this and the deficient transient response cannot be fully cancelled by the software-shaped relationship between accelerator and throttle positions
part-time electric supercharging is the necessary next step, if downsizing is not abandoned
these long-stroke, highly-boosted downsized jobs seem a bit new and shocking, though I have as above criticised the Ecotec in the past
can eg the cheap Dacia buyer still choose between a 90 bhp downsized 3 cylinder or an older-design 4 cylinder engine ?
the more conservative 4 might be the better choice
