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Experimental Correlations for Heat Release and Mechanical Losses in Turbocharged Diesel Engines
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Abstract
The authors present a methodology to establish correlation, derived from experimental activities, for both heat release law and mechanical loss components in a turbocharged four-cylinder diesel engine.
The introduction of the resulting parameters in a fully theoretical model leads to an improvement in its predictive level, as demonstrated by the result presented in terms of both thermodynamic and mechanical engine features.
The most interesting characteristic of the model is represented by the comprehensive description of the engine dynamics under transient conditions.
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Tuccillo, R., Arnone, L., Bozza, F., Nocera, R. et al., "Experimental Correlations for Heat Release and Mechanical Losses in Turbocharged Diesel Engines," SAE Technical Paper 932459, 1993, https://doi.org/10.4271/932459.Also In
References
- Winterbone, D.E. Thiruarooran, C. Wellstead, P.E. “A Wholly Dynamic Model of a Turbocharged Diesel Engine for Transfer Function Evaluation” SAE paper n. 770124
- Watson, N. Marzouk, M. “A Non-Linear Digital Simulation of Turbocharged Diesel Engines under Transient Conditions” SAE paper n. 770122
- Tchorich, P. Kumar, R. Moy, K, P. “Difference Equation Modeling of Automotive Transients” SAE paper n. 860540
- Winterbone, D.E. Benson, R.S. Mortimer, A.G. Kenyon, P. Stotter, A. “Transient Response of Turbocharged Diesel Engines” SAE paper n. 770122
- Watson, N. “Transient Performance Simulation and Analysis of Turbocharged Diesel Engines” SAE paper n. 810338
- Ghuman, A.S. Iwanuro, M.A. Weber, H.G. “Turbocharged Diesel Engine Simulation to Predict Steady-State And Transient Performance” ASME paper 77-DGP-5
- Winterbone D.E. Tennant D.W.H. “The Variation of Friction and Combustion Rates During Diesel Engine Transient” SAE paper n. 810339
- Tuccillo, R Bozza, F. Nocera, R. Senatore, A. “Theoretical and Experimental Investigation of the Matching between an I.C.E. and a Turbocharger” SAE paper n. 901601
- Rocco, V. Senatore, A. Tuccillo, R. “Measurement of Air Mass Flow Rate under Transient Conditions” Proceedings of ISATA International Symposium Graz, Austria I 491 512 sept. 1985
- Rocco, V. Senatore, A. Tuccillo, R. “A Methodology of Instantaneous Mass Flow Rate Measurements at the Intake Manifold of an I.C.E.” Proceedings of 18th. ISATA Symposium Firenze May 1988 2
- Senatore, A. Tuccillo, R. “Experimental Analysis of Unsteady Phenomena Upstream of Turbocharged Engine” SAE paper n. 890649 “Power Boost Light, Medium and Heavy Duty Engines”
- Bozza, F. Nocera, R. Senatore, A. Tuccillo, R. “Second Law Analysis of Turbocharged Engine Operation” SAE paper 910418 “SAE Transactions, Journal of Engines”
- Bozza, F. Nocera, R. Senatore, A. Tuccillo, R. “The Improvement of the Theoretical Prediction of Turbocharged Engine Operation by means of Experimental Data” proc. of “Workshop on Fluid mechanics, Combustion and Emission in Reciprocating Engines” April 1990 265 276
- Rezeka, S.F. Henein, N.A. “A New Approach to Evaluate Instantaneous Friction and Its Components in Internal Combustion Engines” SAE paper 840179
- Gardner, T.P. Henein, N.A. “Diesel Starting: A Mathematical Model” SAE paper n. 880426
- Gardner, T.P. Henein, N.A. “Compression Ratio Optimization in a Direct-Injection Diesel Engine: A Mathematical Model” SAE paper n. 880427
- Kovach, J.T. Tsakiris, E.A. Wong, L.T. “Engine Friction Reduction for Improved Fuel Economy” SAE paper n. 820085
- Millington, B.W. Hartles, E.R. “Frictional Losses in Diesel Engines” SAE paper n. 680590
- Watson, N. Marzouk, M. Piley, A.D. “A Combustion Correlation for Diesel Engine Simulation” SAE Paper 800029
- Xia, Y.Q. Flanagan, R.C. “Ignition Delay: a General Engine/Fuel Model” SAE paper n. 870591
- Krieger, R.B. Borman, G.L. “The Computation of Apparent Heat Release for I.C.E.” ASME paper n. 66-WA/DGP-4 1966
- Svehla, R.A. McBride, B.J. “Fortran IV Computer Program for Calculation of Thermodynamic and Transport Properties of Complex Chemical Systems” 1973
- Annand, W.J.D. “Heat Transfer in the Cylinders of Reciprocating I.C.E.” Proc. of Inst. of Mech. Eng. 177 973 990 1963
- Annand, W.J.D. Ma, T.H. “Instantaneous Heat Transfer Rates to the Cylinder Head Surface of a Small Compression-Ignition Engine” Proc. of Inst. of Mech. Eng. 185 1971 976 987
- Whitehouse, N.D. “Heat Transfer in a Quiescent Chamber Diesel Engine” Proc. of Inst. of Mech. Eng. 185 1971 963 975
- Flynn, P.F. Hoag, K.L. Kamel, M.M. Primus, R.J. “A new Perspective on Diesel Engine Evaluation Based on Second Law Analysis” SAE Paper n. 840032
- Van Gerpen, J.H. Shapiro, H.N. “Second Law Analysis of Diesel engine Combustion” ASME Journ. for Gas Turb. and Power 112 1990 129 137
- Heywood, J.B. “Internal Combustion Engine Fundamentals” McGraW Hill Co. New York 1988
- Ramos, J.I. “Internal Combustion Engine Modeling” Hemisph. Publ.Co. 1989
- Benson, R.S. “The thermodynamics and gas dynamics of internal combustion engines” Horlock J.K. Winterbone D.E. I-II Clarendon Press Oxford 1982-1986
- Watson, N. Janota, M.S. “Turbocharging the internal combustion engines” The Mc.Millan Press Ltd. London 1982
- Rocco, V. “Dynamic T.D.C. and Thermodynamic Loss Angle Measurement in a D.I. Diesel Engine” SAE paper 851546