EFFECTS OF RATE-SHAPED AND MULTIPLE INJECTION STRATEGIES ON POLLUTANT EMISSIONS, COMBUSTION NOISE AND FUEL CONSUMPTION IN A LOW COMPRESSION RATIO DIESEL ENGINE |
Stefano d’Ambrosio, Alessandro Ferrari, Alessandro Mancarella, Antonio Mittica |
Politecnico di Torino |
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ABSTRACT |
An experimental investigation has been carried out to highlight the effects of different injection strategies on the performance and emissions of a low compression ratio Euro 5 diesel engine operated with high EGR rates. Rate-shaped main injections, achieved with piezoelectric and solenoid injectors by means of boot and injection fusion, respectively, as well as optimized multiple injection patterns have been compared. The results of the comparisons, performed with reference to a state-of-the-art double pilot-Main (pM) strategy, are presented in terms of engine-out exhaust emissions, combustion noise (CN) and fuel consumption. Rate-shaped main injections, when included in delayed multiple injection patterns, have shown a minor influence on reducing NOx, while a slight deterioration in soot has been found. Both a double pilot and a boot injection schedule have been able to reduce CN at low loads. A higher reduction in CN has been obtained with an injection fusion event. Finally, DoE optimized triple and quadruple injection strategies have led to improved soot-NOx trade-offs, with respect to the pM calibration. In fact, splitting the injection helps to entrain air inside the fuel plumes, thus creating locally leaner mixture (less prone to forming soot) and allowing increasing the EGR rates (reducing NOx formation). |
Key Words:
Multiple injections, Rate-shaped injection, Boot injection, Closely-coupled injections, DoE calibration optimization |
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