Simulation of Liquid Film Spreading on Tip of Spray Injector

Abstract: The behaviors of fuel films adhering to the tip of a fuel injector for automotive gasoline direct-injection engines was simulated by the computational fluid dynamics. Liquid film adhering to the tip of the fuel injector is a source of carbon deposits; the film spreads on the surfaces of the tip and remains there under certain wetting conditions. The deposit build-up can clog the injector nozzles, which can alter the spray pattern, furthermore, deposits on the tips of injectors are a source of particulate matte… Show more

“…Recently, there are investigations that simulate the tip-wetting phenomenon via computational fluid dynamic approaches. For instance, Ishii et al 17 used a hybrid cubic interpolated propagation and moving particle semi-implicit model to simulate fuel adhesion on injector tips, and they found that the floating droplets might be pulled to the tip and induce tip wetting. Fischer 18 performed a systematic tip-wetting study with both simulation approaches and experimental validations.…”

Tip-Wetting Film Analysis Using Laser-Induced Fluorescence for Multihole Gasoline Direct Injectors under Flash Boiling Conditions

“…Recently, there are investigations that simulate the tip-wetting phenomenon via computational fluid dynamic approaches. For instance, Ishii et al 17 used a hybrid cubic interpolated propagation and moving particle semi-implicit model to simulate fuel adhesion on injector tips, and they found that the floating droplets might be pulled to the tip and induce tip wetting. Fischer 18 performed a systematic tip-wetting study with both simulation approaches and experimental validations.…”

Tip-Wetting Film Analysis Using Laser-Induced Fluorescence for Multihole Gasoline Direct Injectors under Flash Boiling Conditions