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Dynamic mesh analysis by numerical simulation of internal combustion engines.

Authors :
Antônio da Silva, José
Pereira da Silva, Lucas
Costa Campos, Júlio César
de Oliveira Siqueira, Antônio Marcos
Gurgel, Alexandre
Cabezas Gómez, Luben
Source :
REM - International Engineering Journal. Jan-Mar2024, Vol. 77 Issue 1, p27-37. 11p.
Publication Year :
2024

Abstract

A continuous increase in levels of atmospheric pollution and emission restrictions has forced scientists and engineers to adopt new strategies to improve and develop internal combustion engines. One strategy is based on the development of new simulation methodologies using computational fluid dynamic (CFD) techniques, proposed in the present article. In this study, the dynamic loop methodology with ANSYS Fluent code is proposed to perform the numerical simulation of a four-stroke spark ignition engine. The complexity of the real case was first simplified with three-dimensional CAD geometry, which was then discretized in ANSYS Meshing, whereby a hybrid mesh was created using prismatic and tetrahedral elements. Simulations for in-cylinder analyses were performed in cold flow and employing common flow parameters, such as swirl and tumble. The mesh quality results were classified as good or excellent, being higher than 0.79 for orthogonal quality criteria and lower than 0.36 for skewness criteria. Turbulent effects were introduced concerning the opening and closing of the valves. It was found that the turbulence increases during the intake stroke up to 90°, and during the power stroke, wherein the of the piston bowl, had a great contribution that can be seen from the swirl and tumble profile for the engine cycle. In the case of the turbulence intensity, a sharp increase was registered during the admission step up to 90°, at which point the turbulence intensity was 4.0. It can be concluded that this is an innovative approach, capable of simulating the engine motion profile in cold flow. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
2448167X
Volume :
77
Issue :
1
Database :
Academic Search Index
Journal :
REM - International Engineering Journal
Publication Type :
Academic Journal
Accession number :
175840164
Full Text :
https://doi.org/10.1590/0370-44672023770003