INVESTIGADORES
NIGRO Norberto Marcelo
artículos
Título:
In-cylinder flow control in a 4-valve spark ignition engine: numerical and experimental steady rig tests
Autor/es:
RAMAJO DAMIAN; ZANOTTI ANGEL; NIGRO NORBERTO
Revista:
PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART D-JOURNAL OF AUTOMOBILE ENGINEERING
Editorial:
PROFESSIONAL ENGINEERING PUBLISHING LTD
Referencias:
Lugar: London; Año: 2011 vol. 225 p. 813 - 828
ISSN:
0954-4070
Resumen:
Computational fluid dynamic (CFD) simulations and experimental steady
flow tests (flow discharge, swirl, and tumble) were carried out to study
the in-cylinder flow in a commercial four-valve spark ignition engine.
The present investigation was aimed at analysing and controlling the
generation of macro-vortex structures (swirl and tumble) during the
inlet process. A comparative study of the most commonly employed tumble
benches along with in-house design was performed, the last showing some
advantages with respect to the others. The outcomes from the simulations
were in agreement with experimental results. Mainly, the tumble
generation rate was in general proportional to the valve lift. However,
tumble was reduced drastically at medium valve lift due to a change in
the vortex pattern. A stagnation zone was observed between inlet valves.
CFD calculations successfully captured this tumble-fall effect, which
was related to characteristic changes in the vortex pattern downstream
of the inlet valves at medium valve lift. This affects tumble production
without affecting the mass flowrate efficiency. Finally, at high valve
lifts the tumble production and the vortex pattern were recovered. The
capability of the cylinder head to induce swirl, tumble, or combined
swirltumble by modifying the valve timing or by introducing adjustable
flow deflectors was evaluated using CFD. Several valve timing strategies
were analysed: some of them produced significant swirl, but introduced
high mass flowrate losses. On the other hand, adjustable flow deflectors
were shown to be an interesting alternative to induce swirltumble at
low load and to improve tumble at high load.