Bruno Dillies scite author profile

To improve the prediction of turbulence inside internal combustion engines, a Reynolds stress turbulence model is implemented in the Kiva-II code. After a rapid description of the Launder-Reece-Rodi model (noted LRR), two validation test cases (the plane channel flow and the flow over a backward facing step) are presented. The advantages of a second order closure and the shortcomings of the LRR model are then analyzed. Finally, a simulation of an intake and compression stroke using both the standard k – ε model and the LRR model is described. As a precise knowledge of the velocity and turbulent fields near TDC is necessary for the prediction of the mixing and the combustion processes, we have analyzed the influence of the turbulence model on the flow field. Results are compared with experimental data and show a strong influence of the turbulence model even on the mean flow, especially at the end of the compression stroke (TDC).

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Diesel Engine Combustion Modeling Using the Coherent Flame Model in Kiva-II

Dillies¹,

Marx

Dec

et al. 1993

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Bruno Dillies

Engine Flow Calculations Using a Reynolds Stress Model in the Kiva-II Code

Direct Injection Diesel Engine Simulation: A Combined Numerical and Experimental Approach from Aerodynamics to Combustion

Application of Reynolds Stress Modeling to Engine Flow Calculations

Diesel Engine Combustion Modeling Using the Coherent Flame Model in Kiva-II

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