Experimental Study on the Influence of Nozzle Orifice Number on Comustion and Emissions Formation of a Heavy Duty DI Diesel Engine
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This paper presents an investigation of flame
development and soot distribution in the flame at four
operating points of a heavy duty D.I. diesel engine for
two different nozzle configurations (one with six and
one with nine orifices). To facilitate the comparison
the orifice size was adjusted in order to ensure that
the injection pressure and duration were the same in
both cases. For this reason, however, the jet
penetration differed between the two configurations.
The measurement techniques used in the study
included both “conventional” measuring methods and
two-colour pyrometry. For the latter, the cylinder head
was modified to allow an endoscope and light unit to
be mounted at three different positions.
Test results showed that use of the nine-orifice
nozzle at high load leads to higher soot emissions,
apparently because air utilisation is less efficient
under such conditions, except with late injection. For
late injection, reductions in both NOx and soot were
observed as a result of increases in the ignition delay
period, which countered the disadvantageous effects
of the weaker jet penetration associated with the
smaller orifices of the nine-orifice nozzle. For low
loads, the nine-orifice nozzle gave better fuel
distribution, thus improving the NOx/soot trade-off
curves and providing more intensive soot oxidation.