Browse Publications Technical Papers 960635
1996-02-01

Intake and In-Cylinder Flow Modeling Characterization of Mixing and Comparison with Flow Bench Results 960635

A modified version of the three dimensional CFD code KIVA-3, which accommodates moving valves and a moving piston crown, has been applied to a heavy-duty, four cycle, dual intake valve, direct injection, diesel engine The fluid domain encompasses an intake runner, two valved ports and a cylinder with a Mexican hat bowl-in-piston configuration
In the first part of the study, the modified KIVA-3 code was used to simulate the flow through the port and cylinder of the engine without a piston The intake valves were cycled (300 rpm at the camshaft) Two turbulence models were compared in this part of the study, standard k - ε and the RNG modified k - ε as discussed in [11] The results were compared to particle image velocimetry (PIV) images Large scale flow features of the computer simulations agreed moderately well with the ensemble averaged flow bench results There was very little difference between the results from the two turbulence models
Motored engine simulations including a piston were conducted to characterize the in-cylinder gas flow and mixing during the intake and compression strokes Characterization methods were developed which yield insight into the in-cylinder gas motion and mixing during both strokes Intake and residual gases are tracked separately, both large scale convection and turbulent mixing are investigated, flow critical points are examined to provide information about flow topology and turbulence production is correlated with the evolution of flow structures
Results show that mixing of the intake and residual gases is very non-uniform Many complex flow structures develop during intake and are destroyed during compression However, several structures survive through compression and contribute to enhanced mixing near top dead center These significant structures have been identified and tracked back to intake The flow field near top dead center exhibits spatial inhomogeneities in temperature and small scale mixing parameters such as turbulence kinetic energy and its dissipation rate

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