IC Engine Intake Region Design Modifications for Loss Reduction Based on CFD Methods

IC Engine Intake Region Design Modifications for Loss Reduction Based on CFD Methods

Computational fluid dynamics methods are applied to the intake regions of a diesel engine in the design stage at Caterpillar Using a complete, tested and validated computational methodology, fully viscous 3-D turbulent flow simulations are performed for three valve lifts, with the goal of identifyin...

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Veröffentlicht in:SAE transactions 1998-01, Vol.107, p.1450-1463
Hauptverfasser: Taylor, William, Leylek, James H., Sommer, Randall G., Jain, Sunil K.
Format: Artikel
Sprache:eng
Schlagworte:
Charge flow devices
Cylinders
Design
Engine design
Engines
Geometric planes
Inlets
Physics
Turbulence
Velocity vector
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Zusammenfassung:Computational fluid dynamics methods are applied to the intake regions of a diesel engine in the design stage at Caterpillar Using a complete, tested and validated computational methodology, fully viscous 3-D turbulent flow simulations are performed for three valve lifts, with the goal of identifying and understanding the physics underlying loss in the intake regions of IC engines. The results of these simulations lead to several design improvements in the intake region. These improvements are made to the computational domain, and flow simulations are again performed at three different valve lifts. Improvements in overall total pressure loss of between 5% and 33% are found in the computed results between the original and modified (improved) domains. Physical mechanisms responsible for these improvements are documented in detail.
ISSN:0096-736X
2577-1531