G. Brunello scite author profile

The effects of fuel temperature on both the geometry and the droplet size and velocity of a GDI swirled injector spray were investigated by means of visualizations and PDA measurements. Isooctane was used as model fuel and was injected in a quiescent bomb at injection pressure of 7 MPa. Bomb pressure ranged from 40 kPa to 800 kPa with injector nozzle temperature ranging from 293 K to 393 K. A drastic change in spray geometry was observed when conditions above the vaporization curve were reached. The temperature increase has two macroscopic effects on the spray geometry: at the nozzle exit the liquid flash boiling strongly enlarges the spray angle, at a certain distance from the nozzle the air entrainment collapses the spray. Raising the fuel temperature up to flash boiling conditions causes a significant decrease of the average droplet size.

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G. Brunello

LDV Characterization of Air Entrainment in Transient Diesel Sprays

Effect of Gas Density and Temperature on Air Entrainment in a Transient Diesel Spray

Experimental Investigation of Gas Density Effects on Diesel Spray Penetration and Entrainment

Effect of Spray-Wall Interaction on Air Entrainment in a Transient Diesel Spray

Effects of Fuel Temperature and Ambient Pressure on a GDI Swirled Injector Spray

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