A diesel injection model for common rail application has been built and extended including a quasi-dimensional, multi-zone, diesel combustion-pollutant emission model (NO x ). In a commercial simulation environment, a lumped parameter electro-mechanical-hydraulic scheme is used to model the injection process. Modeling of spray formation, droplet vaporization, combustion and pollutant emission processes is then implemented in a self developed computation code, accounting for finite thermal conductibility of the liquid phase fuel. The coupling among the models allows for a detailed representation of the involved phenomena at each simulation step; at the same time, it is possible to evaluate the operation of the ensemble injection system-engine on the basis of atomization, combustion and pollutant emission. The results of the numerical prediction are compared to experimental data.

Chiatti, G., Chiavola, O., Palmieri, F. (2010). Phenomenological Approach for Common Rail Diesel Engine Emission and Performance Prediction. In Proceedings of SAE World Congress 2010 [10.4271/2010-01-0874].

Phenomenological Approach for Common Rail Diesel Engine Emission and Performance Prediction

CHIATTI, Giancarlo;CHIAVOLA, ORNELLA;PALMIERI, FULVIO
2010-01-01

Abstract

A diesel injection model for common rail application has been built and extended including a quasi-dimensional, multi-zone, diesel combustion-pollutant emission model (NO x ). In a commercial simulation environment, a lumped parameter electro-mechanical-hydraulic scheme is used to model the injection process. Modeling of spray formation, droplet vaporization, combustion and pollutant emission processes is then implemented in a self developed computation code, accounting for finite thermal conductibility of the liquid phase fuel. The coupling among the models allows for a detailed representation of the involved phenomena at each simulation step; at the same time, it is possible to evaluate the operation of the ensemble injection system-engine on the basis of atomization, combustion and pollutant emission. The results of the numerical prediction are compared to experimental data.
2010
Chiatti, G., Chiavola, O., Palmieri, F. (2010). Phenomenological Approach for Common Rail Diesel Engine Emission and Performance Prediction. In Proceedings of SAE World Congress 2010 [10.4271/2010-01-0874].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11590/185340
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