Modelling of a Spark Ignition Engine for Power-Heat Production Optimization | Oil & Gas Science and Technology

Dossier: R&D for Cleaner and Fuel Efficient Engines and Vehicles

Open Access

Numéro		Oil Gas Sci. Technol. – Rev. IFP Energies nouvelles Volume 66, Numéro 5, September-October 2011 Dossier: R&D for Cleaner and Fuel Efficient Engines and Vehicles


Page(s)		737 - 745
DOI		https://doi.org/10.2516/ogst/2011135
Publié en ligne		22 septembre 2011

Chen L., Ge Y., Sun F. (2008) Unified Thermodynamic Description and Optimization for a Class of Irreversible Reciprocating Heat Engine Cycles, Proc. IMechE Part D: J. Automobile Engineering 222, D8, 1489-1500. [CrossRef] [Google Scholar]
Hoffman K.H.,Watowich S.J.,Berry R.S. (1985) Optimal Paths for Thermodynamic Systems: the Ideal Diesel Cycle, J. Appl. Phys. 58, 6, 2125-2134. [CrossRef] [Google Scholar]
Angulo-Brown F., Fernandez-Betanzos J., Diaz-Pico C.A. (1994), Compression Ratio of an Optimized Otto-Cycle Model, Eur. J. Phys. 15, 1, 38-42. [CrossRef] [Google Scholar]
Ge Y.,Chen L.,Sun F. (2008) Finite Time Thermodynamics Modeling and Analysis for an Irreversible Otto Cycle, Appl. Energy 85, 7, 618-624. [CrossRef] [Google Scholar]
Ebrahimi R. (2010) Effects of Variable Specific Heat Ratio on Performance of an Endoreversible Otto Cycle, Acta Phys. Pol. A 177, 6, 887-891. [Google Scholar]
Chen L.,Lin J.,Lou J.,Sun F.,Wu C. (2002) Friction Effect on the Characteristic Performances of Diesel Engines, Int. J. Energy Res. 26, 11, 965-971. [CrossRef] [Google Scholar]
Ebrahimi R. (2009) Performance of an Irreversible Diesel Cycle under Variable Stroke Length and Compression Ratio, J. Am. Sci. 5, 7, 58-64. [Google Scholar]
Chen L.,Sun F.,Wu C. (2004) Optimal Performance of an Irreversible Dual Cycle, Appl. Energy 79, 1, 3-14. [CrossRef] [Google Scholar]
Ghatak A.,Chakraborty S. (2007) Effect of External Irreversibilities and Variable Thermal Properties of Working Fluid on Thermal Performance of a Dual Internal Combustion Engine Cycle, J. Mech. Energy 58, 1, 1-12. [Google Scholar]
Ge Y., Chen L., Sun F. (2009) Finite Time Thermodynamics Modeling and Analysis for an Irreversible Dual Cycle, Math. Comput. Model. 50, 1-2, 101-108. [Google Scholar]
Angulo-Brown F., Navarette-Gonzalez T.D., Rocha-Martinez J.A. (1999) An Irreversible Otto Cycle Including Chemical Reactions, in Recents Advances in Finite Time Thermodynamics Wu C. et al. (eds), Nova Science Palo, pp. 491-505. [Google Scholar]
Rocha-Martinez J.A., Navarette-Gonzalez T.D., Pava-Miller C.G. et al. (2006) A Simplified Irreversible Otto Engine Model with Fluctuations in the Combustion Heat, Int. J. Ambient Energy 27, 4, 181-192. [CrossRef] [Google Scholar]
Chen L.,Wu C.,Sun F.,Wu C. (1998) Heat-Transfer Effects on the Net Work-Output and Efficiency Characteristics for an Air Standard Otto Cycle, Energ. Convers. Manage. 39, 7, 643-648. [Google Scholar]
Merabet A.,Feidt M.,Bouchoucha A. (2002) Effect of Heat Transfer on the Performance of an Atmospheric Spark Ignition Engine Operating Upon a Dual Cycle, Termotehnica 2, 43-46. [Google Scholar]
Hohenberg G. (1979) Advanced Approaches for Heat Transfers Calculation, SAE Technical paper 790825. [Google Scholar]
Heywood J.B. (1988) Internal Combustion Engines Fundamentals, Mc Graw Hill, ISBN 0-07-100499-8. [Google Scholar]
Guibert P. (2005) Modelling of Direct Cycle; Spark Ignition Engine, Techniques de l’Ingénieur, BM 2511. [Google Scholar]
Tazerout M., Lecorre O., Stouffs P. (1999) Compression Ratio and TDC Calibrations using Temperature Entropy Diagram, SAE Technical paper 1999-01-3509. [Google Scholar]
Arques P. (2004) La combustion : Inflammation, Combustion, Pollution, Applications, Ellipses, Paris, 304 p., ISBN 2-7298- 2037-X. [Google Scholar]
Descieux D. (2007) Modelling and Exergetic Comparison of Cogeneration Systems, PhD Thesis, University of Nancy, France. [Google Scholar]
Mc Govern et al. (2010) Validation of a Simulation Model for a Combined Otto and Stirling Cycle Power Plant, ASME 4th International Conference on Energy Sustainability, ES 2010- 90220, Phoenix, Arizona, USA. [Google Scholar]

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