Achieving Very Low PN Emissions with an Advanced Multi-Hole Injector Functionality and Adapted Spray Targeting Under High Fuel Pressure Conditions

“…Injecting the fuel with a higher rail pressure leads to formation of smaller droplets in the spray, and therefore faster evaporation and improved mixing, which in turn mitigates PN formation. The relation between improved spray atomisation and reduced PN has been reported by several authors, for instance by Frottier et al 31 Also, since the start of injection was the same for all the cases, the shorter injection duration which comes with higher injection pressure means that the injection is ended when piston is further from the injector/spray, and therefore the likeliness of piston surface wetting, which can result in liquid fuel film deposition 32 is reduced. Formation of such fuel film is a major contributor to PN as liquid fuel film may not fully evaporate and mix with the charge prior to start of combustion, often leading to pool fire or locally fuel rich pockets in the mixture and thus soot formation.…”

“…If the fuel is hard to evaporate, locally rich pockets are formed in the charge and near the wetted surface, increasing PN. 31,42 Since the Reference fuel has no advantage on the physical side (in this case in terms of mixture formation), it appears reasonable to attribute the lower PN tendency to its chemical composition. The large impact of the fuel aromatic contents on PN emissions is well known.…”

Investigating the impact of gasoline composition on PN in GDI engines using an improved measurement method

“…Injecting the fuel with a higher rail pressure leads to formation of smaller droplets in the spray, and therefore faster evaporation and improved mixing, which in turn mitigates PN formation. The relation between improved spray atomisation and reduced PN has been reported by several authors, for instance by Frottier et al 31 Also, since the start of injection was the same for all the cases, the shorter injection duration which comes with higher injection pressure means that the injection is ended when piston is further from the injector/spray, and therefore the likeliness of piston surface wetting, which can result in liquid fuel film deposition 32 is reduced. Formation of such fuel film is a major contributor to PN as liquid fuel film may not fully evaporate and mix with the charge prior to start of combustion, often leading to pool fire or locally fuel rich pockets in the mixture and thus soot formation.…”

“…If the fuel is hard to evaporate, locally rich pockets are formed in the charge and near the wetted surface, increasing PN. 31,42 Since the Reference fuel has no advantage on the physical side (in this case in terms of mixture formation), it appears reasonable to attribute the lower PN tendency to its chemical composition. The large impact of the fuel aromatic contents on PN emissions is well known.…”

Investigating the impact of gasoline composition on PN in GDI engines using an improved measurement method

“…Frottier et al [5] showed the effect of fuel rail pressure increase, they demonstrated a clear improvement in atomization, which led to clearly reduced PN emissions in the highway driving part of the NEDC. Kramer et al [24] found that reduced spray penetration is possible by using shorter injection durations, at a higher fuel pressure.…”

“…Frottier et al [5] achieved all of the above by increasing the number of injector holes and operating at high injection pressures. This resulted in each spray plume being shorter, decreasing the wall impingement probability.…”

A Review of the Requirements for Injection Systems and the Effects of Fuel Quality on Particulate Emissions from GDI Engines

Breakup characteristics of high speed liquid jets from a single-hole injector