[1] ZHAO F, LAI M C, HARRINGTON D L. Automo�tive spark-ignited direct-injection gasoline engines [J]. Progress in Energy and Combustion Science, 1999, 25(5): 437-562.
[2] HOFFMANN G, BEFRUI B, BERNDORFER A, et al. Fuel system pressure increase for enhanced perfor�mance of GDi multi-hole injection systems [J]. SAE International Journal of Engines, 2014, 7(1): 519-527.
[3] PIOCK W F, BEFRUI B, BERNDORFER A, et al. Fuel pressure and charge motion effects on GDi engine particulate emissions [J]. SAE International Journal of Engines, 2015, 8(2): 464-473.
[4] HUSTED H, SPEGAR T D, SPAKOWSKI J. The ef�fects of GDi fuel pressure on fuel economy [C]// SAE 2014 World Congress & Exhibition. Detroit, Michigan: SAE International, 2014: 2014-01-1438.
[5] YANG S Z, MA Z, LI X S, et al. A review on the ex�perimental non-intrusive investigation of fuel injector phase changing flow [J]. Fuel, 2020, 259: 116188.
[6] LI X S, YANG S Z, LI T Y, et al. Investigations on near-field atomization of flash boiling sprays for gaso�line direct injection related applications [J]. Fuel, 2019, 257: 116097.
[7] HWANG J, PARK Y, BAE C, et al. Fuel temperature influence on spray and combustion characteristics in a constant volume combustion chamber (CVCC) under simulated engine operating conditions [J]. Fuel, 2015, 160: 424-433.
[8] YANG S Z, LI X S, HUNG D L S, et al. In-nozzle flash boiling flow of multi-component fuel and its effect on near-nozzle spray [J]. Fuel, 2019, 252: 55-67.
[9] MOJTABI M, CHADWICK N, WIGLEY G, et al. The effect of flash boiling on breakup and atomisation in GDI sprays [C]//22nd European Conference on Liquid Atomization and Spray Systems. Como Lake: ILASS Europe, 2008: ILASS08-6-1.
[10] YANG S Z, LI X S, HUNG D L S, et al. Effect of injec�tion pressure on nozzle internal flow and jet breakup under sub-cooled and flash boiling test conditions [J]. SAE Technical Paper, 2019: 2019-01-0286.
[11] XIAO D, QIU S Y, HUNG D, et al. Evaporation and condensation of flash boiling sprays impinging on a cold surface [J]. Fuel, 2021, 287: 119423.
[12] HE X, LI Y K, LIU C, et al. Characteristics of spray and wall wetting under flash-boiling and non-flashing conditions at varying ambient pressures [J]. Fuel, 2020, 264: 116683.
[13] CHAN Q N, BAO Y M, KOOK S. Effects of in�jection pressure on the structural transformation of flash-boiling sprays of gasoline and ethanol in a spark�ignition direct-injection (SIDI) engine [J]. Fuel, 2014, 130: 228-240.
[14] PAYRI R, SALVADOR F J, MART′I-ALDARAV′I P, et al. ECN Spray G external spray visualization and spray collapse description through penetration and morphology analysis [J]. Applied Thermal Engineering, 2017, 112: 304-316.
[15] MONTANARO A, ALLOCCA L. Flash boiling evi�dences of a multi-hole GDI spray under engine condi�tions by Mie-scattering measurements [J]. SAE Tech�nical Paper, 2015: 2015-01-1945.
[16] ZENG W, XU M, ZHANG M, et al. Macroscopic char�acteristics for direct-injection multi-hole sprays using dimensionless analysis [J]. Experimental Thermal and Fluid Science, 2012, 40: 81-92.
[17] ZHANG G M, HUNG D L S. Temporal investigations of transient fuel spray characteristics from a multi-hole injector using dimensionless analysis [J]. Experimental Thermal and Fluid Science, 2015, 66: 150-159.
[18] ZHANG M, XU M, HUNG D L S. Simultaneous two�phase flow measurement of spray mixing process by means of high-speed two-color PIV [J]. Measurement Science and Technology, 2014, 25(9): 095204.
|
