This content is not included in
your SAE MOBILUS subscription, or you are not logged in.
Combustion Modeling Applied to Engines Using a 1D Simulation Code
Technical Paper
2016-36-0347
ISSN: 0148-7191, e-ISSN: 2688-3627
Annotation ability available
Sector:
Language:
English
Abstract
Modeling of internal combustion engines is a multidisciplinary activity that is continuously growing and is more and more present during the development phase of an engine, mostly today when the time to production is reduced. There are different levels of complexity when thinking about engine modeling, from the high level of details of the 3D models to a much simpler approach of the 1D models. The last is the most adequate to analyze the whole engine system with multiple components together, looking for its performance. It is also interesting and important to observe the advances of the combustion modeling and prediction of emissions that these models allow. In this article the possibilities of 1D modeling is presented. A quick overview on available simulation codes is done and some models of combustion are studied. Finally, 1D engine models are built to verify their advantages, drawbacks and results in terms of engine performance.
Recommended Content
Authors
Citation
Trindade, W. and Santos, R., "Combustion Modeling Applied to Engines Using a 1D Simulation Code," SAE Technical Paper 2016-36-0347, 2016, https://doi.org/10.4271/2016-36-0347.Also In
References
- López , E. J. and Nigro , N. M. Validation of a 0D/1D Computational Code for The Design of Several Kind of Internal Combustion Engines Technical report, Centro Internacional de Métodos Computacionales en Ingeniería Instituto de Desarrollo Tecnológico para la Industria Química 2000
- Alqahtani , A. , Shokrollahihassanbarough , F. , and Wyszynski , M. L. Thermodynamic Simulation Comparison of AVL BOOST and Ricardo WAVE for HCCI and SI Engines Optimisation Combustion Engines 161 2 68 72 2015 2300-9896
- Barros , J. E. M. Estudo de Motores de Combustão Interna Aplicando Análise Orientada a Objetos Master’s thesis Universidade Federal de Minas Gerais 2003
- Coble , A. R. , Smallbone , A. , Bhave , A. , Mosbach , S. , Kraft , M. , Niven , P. , and Amphlet , S. Implementing Detailed Chemistry and In-Cylinder Stratification Into 0/1-D IC Engine Cycle Simulation Tools SAE Technical Paper 2011-01-0849 2011 10.4271/2011-01-0849
- Gamma Technologies GT-SUITE: Engine Performance Application Manual - version7.5 Gamma Technologies 2015
- Heywood , J. B. Internal Combustion Engines Fundamentals McGraw-Hill, Inc. 1988 978-0070286375
- Kodah , Z. H. , Soliman , H. S. , and Qudais , M. A. Combustion in a Spark-Ignition Engine Applied Energy 66 3 237 250 2000 10.1016/S0306-2619(99)00129-4
- Ricardo WAVE Engine Performance Using Ricardo WAVE http://www.ricardo.com Apr. 2016
- AVL Virtual Engine Simulation https://www.avl.com/boost Apr. 2016
- Gamma Technologies GT-SUITE: Flow Theory Manual - version7.5 Gamma Technologies 2015
- Ghojel , J. I. Review of the Development and Applications of the Wiebe Function: a Tribute to the Contribution of Ivan Wiebe to Engine Research International Journal of Engine Research 11 4 297 312 2010
- Gamma Technologies GT-SUITE: Engine Performance Help Manual - version7.5 Gamma Technologies 2015
- Blizard , N. C. and Keck , J. C. Experimental and Theoretical Investigation of Turbulent Burning Model for Internal Combustion Engine SAE Technical Paper SAE 740191 1974 10.4271/740191
- Hires , S. D. , Tabaczynski , R. J. , and Novak , J. M. The Prediction of Ignition Delay and Combustion Intervals for a Homogeneous Charge, Spark Ignition Engine SAE Technical Paper SAE 780232 1978 10.4271/780232
- Morel , T. , Rackmil , C. I. , Keribar , R. , and Jennings , M. J. Model for Heat Transfer and Combustion in Spark-Ignited Engine and its Comparison with Experiments SAE Technical Paper SAE 880198 1988 10.4271/880198
- Tennekes , H. and Lumley , J.L. A First Course in Turbulence MIT Press 1972 0-262-20019-8
- Gamma Technologies GT-SUITE: Engine Performance Tutorials - version7.5 Gamma Technologies 2015
- Kee , R. , Rupley , F. , and Miller , J. Chemkin-II: A FORTRAN Chemical Kinetics Package for the Analysis of Gas-Phase Chemical Kinetics Sandia Report SAND89-8009 1989
- Smith , G. P. , Golden , D. M. , Frenklach , M. , Moriarty , N. W. , Eiteneer , B. , Goldenberg , M. , Bowman , C. T. , Hanson , R. K. , Song , S. , Gardiner , W. C. , Jr. , Lissianski , V. V. , and Qin , Z. NASA Polynomials Format: Polynomials Oct. 2015
- Smith , G. P. , Golden , D. M. , Frenklach , M. , Moriarty , N. W. , Eiteneer , B. , Goldenberg , M. , Bowman , C. T. , Hanson , R. K. , Song , S. , Gardiner , W. C. , Jr. , Lissianski , V. V. , and Qin , Z. NASA polynomials format: CHEMKIN Oct. 2015
- Niemeyer , K. , Sung , C. , and Raju , M. Skeletal Mechanism Generation for Surrogate Fuels Using Directed Relation Graph with Error Propagation and Sensitivity Analysis Combustion and Flame 157 9 1760 1770 2010 10.1016/j.combustflame.2009.12.022
- Chang , Y. , Jia , M. , Liu , Y. , Li , Y. , and Xie , M. Development of a New Skeletal Mechanism for n-Decane Oxidation under Engine Relevant Conditions Based on a Decoupling Methodology Combustion and Flame 160 8 1315 1332 2013 10.1016/j.combustflame.2013.02.017
- Leplat , N. , Dagaut , P. , Togbé , C. , and Vandooren , J. Numerical and Experimental Study of Ethanol Combustion and Oxidation in Laminar Premixed Flames and in Jet-Stirred Reactor Combustion and Flame 158 4 705 725 2011 10.1016/j.combustflame.2010.12.008
- Saxena , P. and William , F. Numerical and Experimental Studies of Ethanol Flames Proceedings of the Combustion Institute 31 1 1149 1156 2007 10.1016/j.proci.2006.08.097
- Lawrence Livermore National Laboratory Mechanisms Combustion Mechanisms 2015 https://combustion.llnl.gov/mechanisms Oct. 2015