◎ Title : Effect of intake manifold geometry on cylinder-to-cylinder variation and tumble enhancement in gasoline direct injection engine
◎ Authors : Jisoo Shin, Donghwan Kim, Yousang Son, Sungwook Park
◎ Source : Scientific Reports / Vol. 12, Issue 1, DOI : 10.1038/s41598-022-24079-8
◎ Article Number : 19862
◎ Published : NOV 18 2022
◎ Indexed : 2022-11-30
◎ Keywords : GDI ENGINE; COMBUSTION; FLOW; STRATEGY; VEHICLE; SINGLE
◎ Abstract :
In this study, the effect of intake manifold geometry on cylinder-to-cylinder variation was investigated considering the volumetric efficiency, early tumble development, turbulent kinetic energy, and spark plug gap velocity using computational fluid dynamic program, CONVERGE v2.4. The simulation model was validated based on the PIV experiment in the cylinder and Mie-scattering experiment of intake manifold, and its results agreed well with the experiment results. The curved intake manifold and straight manifold were compared. As a result, it was advantageous for cylinder-to-cylinder variation in the straight intake manifold compared to the curved intake manifold in perspective of volumetric efficiency which were a maximum deviation of 1.7% in curved manifold and 0.6% in straight manifold. And the straight manifold had an effect of the strengthening the in-cylinder flow, so that the turbulent kinetic energy near TDC was increased to maximum 11% than curved manifold. And considering the effect of manifold curve radius on in-cylinder flow intensity in straight manifold, with increasing engine speed, the in-cylinder flow intensified during compression with decreasing the intake manifold radius due to the short distance between manifold inlet and port. Especially at 2000 rpm, the tumble ratio increased 55% at intake manifold radius of 10 cm than of 7 cm at bTDC 280 deg. Therefore, for the purpose of enhancing the in-cylinder flow near spark plug timing, shortened distance between intake manifold inlet and port and increasing the manifold radius is required.
◎ Title : Effect of intake manifold geometry on cylinder-to-cylinder variation and tumble enhancement in gasoline direct injection engine
◎ Authors : Jisoo Shin, Donghwan Kim, Yousang Son, Sungwook Park
◎ Source : Scientific Reports / Vol. 12, Issue 1, DOI : 10.1038/s41598-022-24079-8
◎ Article Number : 19862
◎ Published : NOV 18 2022
◎ Indexed : 2022-11-30
◎ Keywords : GDI ENGINE; COMBUSTION; FLOW; STRATEGY; VEHICLE; SINGLE
◎ Abstract :