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Influence of nozzle geometry on spray and combustion characteristics related to large two-stroke engine fuel injection systems

Reto Balz, G. Bernardasci, Beat von Rotz, David Sedarsky

2021Fuel26 citationsDOIOpen Access PDF

Abstract

As emission regulations for large two-stroke marine Diesel engines increase as well, the manufacturers face similar problems as small-sized engine builders. The fuel injection, spray formation and subsequent combustion process remain among the main drivers for emissions of direct-injection, compression-ignition internal combustion engines. Since the fuel injection nozzle design of large two-stroke marine Diesel engines differs significantly, not only in size but especially regarding their non-symmetricity and eccentrical orifice arrangement, compared with four-stroke engines, the bulk of research available related to this topic is very limited. To further deepen the understanding of how in-nozzle cavitation flow during the fuel injection process affects the combustion behaviour in large two-stroke marine Diesel engines, transparent nozzle geometries have been used to link the cavitation phenomena with spray and combustion characteristics. A total of six single-orifice nozzles based on the original five-orifice nozzle design of large two-stroke marine Diesel fuel injectors, with and without hydro-erosive grinding, have been experimentally investigated under realistic engine conditions using highspeed optical measurement techniques and a unique constant-volume spray chamber that geometrically represents a combustion chamber of a large two-stroke marine Diesel engine at top dead centre. The spray morphology and combustion results reveal significant differences between the non- and hydro-erosive ground nozzle geometries. While the standard and angled nozzle versions remain similar, the eccentrical nozzle with its distinctive in-nozzle swirl cavitation pattern behaves differently, leading to a very reliable start of ignition behaviour and extreme wide spray angle.

Topics & Concepts

NozzleFour-stroke engineBody orificeTwo-stroke engineDiesel fuelSpray nozzleDiesel engineStroke (engine)CombustionCombustion chamberHomogeneous charge compression ignitionDiesel cycleFuel injectionCavitationSpray characteristicsAutomotive engineeringIgnition systemInternal combustion engineMaterials scienceMechanicsMechanical engineeringCompression ratioEngineeringAerospace engineeringChemistryPhysicsOrganic chemistryAdvanced Combustion Engine TechnologiesCombustion and flame dynamicsRocket and propulsion systems research
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