Numerical Estimation of Medium-Speed Engine Swirl Ratio by Cylinder
Induction Modeling 2023-01-5049
A numerical study of airflow at piston engine ports and the cylinder was
conducted to obtain the swirl ratio and manifold volumetric efficiency. The
mathematical model of the cylinder induction was validated by comparing it with
published experimental data. Swirl ratio and manifold volumetric efficiency were
analyzed using computational fluid dynamics (CFD) modeling of cylinder induction
and compression strokes. The effects of charge pressure, engine speed, and
charge air temperature on swirl ratio were studied. It was also found that the
swirl ratio slightly increases as inlet air temperature and pressure grow, and
it linearly decreases as engine speed rises. Furthermore, it was found that
vortex speed is proportional to the power of 0.9 of the engine speed. The
reasons for the changing swirl ratio and manifold volumetric efficiency were
researched.