Liquid Film Atomization on Wall Edges—Separation Criterion and Droplets Formation Model-Reference-Cited by-同舟云学术

Liquid Film Atomization on Wall Edges—Separation Criterion and Droplets Formation Model

Published:2002-08-19 Issue:3 Volume:124 Page:565-575
ISSN:0098-2202
Container-title:Journal of Fluids Engineering
language:en
Short-container-title:

Author:

Maroteaux F.¹,Llory D.²,Le Coz J-F.²,Habchi C.²

Affiliation:

1. Universite´ Paris VI - LMP, 2 place de la gare de ceinture, 78210 St Cyr L’Ecole, France

2. IFP, 1&4 avenue du bois pre´au, 92852 Rueil-Malmaison, France

Abstract

In order to predict the fuel mixture preparation inside the cylinder of port fuel injection engines, a model for the aerodynamic stripping of the fuel film deposited on the manifold walls is discussed, and a model for the fuel film separation and atomization near the sharp edges is developed. A separation criterion is set up using an analogy with Rayleigh-Taylor instabilities driven by the inertial forces of the liquid film. To determine the physical parameters of the resulting droplets, a liquid sheet atomization scheme is used. The critical value for the separation criterion is adjusted using experimental data obtained in 2D wind tunnel equipped with different steps shaped as a valve seat, and reproducing the main characteristics of the intake of spark ignition engine. CFD simulations are performed using the KMB code, a modified version of KIVA-2 already including a stochastic Lagrangian description of the spray, and an Eulerian liquid film model. Computations results for different operating conditions are in good agreement with the images of film separation and measured droplet size distributions.

Publisher

ASME International

Subject

Mechanical Engineering

Link

http://asmedigitalcollection.asme.org/fluidsengineering/article-pdf/124/3/565/5901784/565_1.pdf

Reference24 articles.

1. Maroteaux, F., and L. Le Moyne, 1995, “Modeling of Fuel Deposition Rate in Port Fuel Injected Spark Ignition Engine,” SAE paper 952484.

2. Guntz, C., S. Guilain, and F. Maroteaux, 1997, “Modeling of Fuel Behavior in The Intake Manifold of Port Fuel Injected Spark Ignition Engine,” SAE paper 972992.

3. Fox, J., W. Cheng, J. B. Heywood, and K. Min, 1992, “Mixture Preparation in A SI Engine With Port Fuel Injection During Starting and Warm-Up,” SAE paper 922170.

4. Bourke, M. C., and L. W. Evers, 1994, “Fuel Film Dynamics in The Intake Port of a Fuel Injected Engine,” SAE paper 940446.

5. Imatake, N., K. Saito, S. Morishima, S. Kudo, and A. Ohhata, 1997, “Quantitative Analysis of Fuel Behavior in Port-Injection Gasoline Engine,” SAE paper 971639.

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