Internal combustion engine exhaust pipe flow simulation. Part I: theoretical aspects-Reference-Cited by-同舟云学术

Internal combustion engine exhaust pipe flow simulation. Part I: theoretical aspects

Published:2009-01-01 Issue:1 Volume:29 Page:115-125
ISSN:2248-8723
Container-title:Ingeniería e Investigación
language:
Short-container-title:Ing. Inv.

Author:

Mantilla Juan Miguel,Falla Camilo Andrés,Gómez Jorge Arturo

Abstract

Unsteady gas flow theory can be used for simulating a spark ignition internal combustion engine’s exhaust system, using pressure waves. The method explained here is based on the discretization of interpolated spaces (called meshes) which are located throughout the whole length of the exhaust pipe, irrespective of its form or size. The most important aspects of this theory are theoretically explored, such as pressure wave movement and shock and their application to cases found in real engines’ exhaust pipes. This work also considers how the simulation must be made, based on the previous exploration. The results (presented as equations in this first paper) show the great influence exerted by pressure wave movement on flow through the engine and therefore on its final performance.

Publisher

Universidad Nacional de Colombia

Subject

General Engineering,Building and Construction

Reference15 articles.

1. Álvarez, J., Callejón, I., Máquinas Térmicas Motoras., Alfaomega, México, 2005.

2. Bannister, F., Pressure waves in gases in pipes., Ackroyd Stuart Memorial Lectures, University of Nottingham, 1958.

3. Bayraktar, H., Experimental and theoretical investigation of using gasoline-ethanol blends in spark-ignition engines., Renewable Energy, Vol. 30, No. 11, 2005, pp. 1733-1747.

4. Benson, R., .Dentro del libro: Horlock, J., Winterbone, D., The Thermodynamics and Gas Dynamics of Internal Combustion Engines., Clarendon Press, Oxford, Vol. 1, 1982.

5. Benson, R., A numerical solution of unsteady flow problems., Int. J. Mech. Sci., Vol. 6, 1964, pp.117-144.