HC1-1: Numerical Analyses of the Effects of Mixture Quality on the Controlled Autoignition in Gasoline Engines(HC: HCCI Combustion,General Session Papers)
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概要
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Controlled autoignition in gasoline engines is a promising concept to simultaneously reduce both emissions and fuel consumption of internal combustion engines. To describe the spatial progress of the chemical reactions in three-dimensional simulations of CAI engine cycles an efficient combustion chemistry model was developed. To analyze the effects of mixture homogeneity on the progress of the reactions, thermodynamic analyses and numerical simulations of engine operation in HCCI mode have been performed based on experimental investigations with an optically-accessible single-cylinder engine. The numerical simulations were used to interpret the experimental observations in terms of mixing and reaction progress. Both experimental investigations and simulations show that injection timing is a feasible control parameter for the optimization of operating points because autoignition is influenced by the start of injection and the therewith connected temperature and mixture distribution. Furthermore spark assisted HCCI combustion at high load was investigated by thermodynamic analyses and com-bustion visualization. The results of the combustion visualization and heat release analyses suggest a superposition of flame front propagation and autoignition. Therefore the kinetic model to describe autoignition was coupled with a model to describe the turbulent flame propagation and three averaged cycles at different load were simulated. In all cases a good accordance between simulation and experiment can be stated. Like the results of the combustion visualiza-tion the simulations show a propagating flame front near the spark plug followed by sequential autoignition in the outer regions of the combustion chamber.
- 一般社団法人日本機械学会の論文
- 2008-07-28
著者
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Sauter Werner
Institutfuer Kolbenmaschinen (institute Of Reciprocating Engines) University Of Karlsruhe (th)
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Maas Ulrich
Institute Of Technical Thermodynamics Karlsruhe Institute Of Technology (kit)
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Spicher Ulrich
Institut Fur Kolbenmaschinen Universitat Karlsruhe (th)
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Hensel Sebastian
Institut Fur Kolbenmaschinen (institute Of Reciprocating Engines) University Of Karlsruhe (th)
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Sarikoc Fatih
Institut fur Kolbenmaschinen (Institute of Reciprocating Engines), University of Karlsruhe (TH)
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Kubach Heiko
Institut fur Kolbenmaschinen (Institute of Reciprocating Engines), University of Karlsruhe (TH)
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Schubert Alexander
Institut fur Technische Thermodynamik, University of Karlsruhe (TH)
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Schiessl Robert
Institut fur Technische Thermodynamik, University of Karlsruhe (TH)
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Kubach Heiko
Institut Fur Kolbenmaschinen (institute Of Reciprocating Engines) University Of Karlsruhe (th)
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Sarikoc Fatih
Institut Fur Kolbenmaschinen (institute Of Reciprocating Engines) University Of Karlsruhe (th)
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Schiessl Robert
Institut Fur Technische Thermodynamik University Of Karlsruhe (th)
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Schubert Alexander
Institut Fur Technische Thermodynamik University Of Karlsruhe (th)
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Maas Ulrich
Institut Fur Technische Thermodynamik University Of Karlsruhe (th)
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Sauter Werner
Institut Fur Kolbenmaschinen (institute Of Reciprocating Engines) University Of Karlsruhe (th)
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Spicher Ulrich
Institut Fur Kolbenmaschinen (institute Of Reciprocating Engines) University Of Karlsruhe (th)
関連論文
- Repetitive streamer discharges leading to Ignition of hydrogen/air mixtures
- A Study of the Ignition and Combustion Process in a Gasoline HCCI Engine Using Port and Direct Fuel Injection(HCCI, Combustion Processes I)
- (2-20) Numerical Analyses of the Combustion Process in a Spark-Ignition Engine((SI-6)S. I. Engine Combustion 6-Modeling)
- MD1-3: Three-Dimensional Visualisation of Auto-Ignition Processes in Spark-Ignition Engines : Practical Examples of Abnormal Combustion and HCCI Auto-Ignition(MD: Measurement and Diagnostics,General Session Papers)
- HC1-1: Numerical Analyses of the Effects of Mixture Quality on the Controlled Autoignition in Gasoline Engines(HC: HCCI Combustion,General Session Papers)