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Simulation and Measurement of Transient Fluid Phenomena within Diesel Injection

Gold, M., Pearson, R., Turner, J. , Sykes, D., Stetsyuk, V., De Sercey, G., Crua, C., Koukouvinis, F. ORCID: 0000-0002-3945-3707 & Gavaises, M. ORCID: 0000-0003-0874-8534 (2019). Simulation and Measurement of Transient Fluid Phenomena within Diesel Injection. SAE Technical Papers, 1(1), pp. 291-305. doi: 10.4271/2019-01-0066


Rail pressures of modern diesel fuel injection systems have increased significantly over recent years, greatly improving atomisation of the main fuel injection event and air utilisation of the combustion process. Continued improvement in controlling the process of introducing fuel into the cylinder has led to focussing on fluid phenomena related to transient response. High-speed microscopy has been employed to visualise the detailed fluid dynamics around the near nozzle region of an automotive diesel fuel injector, during the opening, closing and post injection events. Complementary computational fluid dynamic (CFD) simulations have been undertaken to elucidate the interaction of the liquid and gas phases during these highly transient events, including an assessment of close-coupled injections. Microscopic imaging shows the development of a plug flow in the initial stages of injection, with rapid transition into a primary breakup regime, transitioning to a finely atomised spray and subsequent vaporisation of the fuel. During closuring of the injector the spray collapses, with evidence of swirling breakup structures together with unstable ligaments of fuel breaking into large slow-moving droplets. This leads to sub-optimal combustion in the developing flame fronts established by the earlier, more fully-developed spray. The simulation results predict these observed phenomena, including injector surface wetting as a result of large slow-moving droplets and post-injection discharge of liquid fuel. This work suggests that post-injection discharges of fuel play a part in the mechanism of the initial formation, and subsequent accumulation of deposits on the exterior surface of the injector. For multiple injections, opening events are influenced by the dynamics of the previous injection closure; these phenomena have been investigated within the simulations.

Publication Type: Article
Additional Information: © SAE International. Gold, M., Pearson, R., Turner, J., Sykes, D. et al., © "Simulation and Measurement of Transient Fluid Phenomena within Diesel Injection," SAE Technical Paper 2019-01-0066, 2019,
Subjects: T Technology > TJ Mechanical engineering and machinery
T Technology > TL Motor vehicles. Aeronautics. Astronautics
Departments: School of Science & Technology > Engineering
SWORD Depositor:
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