Development of a Coupling Approach between 0D D.I. Diesel Combustion and Pollutant Models: Application to a Transient Engine Evolution

Lafossas, F.-A.; Marbaix, M.; Ménégazzi, Pascal

doi:10.2516/ogst:2008035

Cited by 7 publications

(4 citation statements)

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“…For Diesel engine, an advanced Barba [1] model developed at IFP is implemented in ModEngine [9]. The Barba's model can reproduce the conventional Diesel combustion process, using only 2 zones (a first zone for the description of the pre-mixed combustion and a second one for the diffusion mode).…”

Section: Figure1: Modelling /Simulation/control/real-time Validation mentioning

confidence: 99%

From Physical Modeling to Real-Time Simulation : Feed back on the use of Modelica in the engine control development toolchain

Benjelloun-Touimi¹,

Gaïd²,

Bohbot³

et al. 2011

Linköping Electronic Conference Proceedings

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This article provides feedback from using Modelica in the "System Modelling" area, involving modelling (behavioural and dynamic modelling), direct simulations, control and real-time applications. The described work was undertaken within three Europeans projects: Eurosyslib, Modelisar and Open Prod. Our aims are to attest Modelica language in an overall model of a vehicle consisting of vehicle dynamics, combustion engine, transmission, drive line, brakes and control systems. ModEngine is a complete IFPEN 1 library, resulting from our participation in those European projects. It allows the modelling of a complete engine with diesel and gasoline combustion models. It may be interfaced with control algorithms written in Simulink thanks to the new Functional Mock-up Interface specification from Modelisar project. Both versions under commercial software Dymola and free one OpenModelica are available. Feedback will concerns also problems encountered and advantages in use Dymola and OpenModelica platforms.

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Section: Figure1: Modelling /Simulation/control/real-time Validation mentioning

confidence: 99%

From Physical Modeling to Real-Time Simulation : Feed back on the use of Modelica in the engine control development toolchain

Benjelloun-Touimi¹,

Gaïd²,

Bohbot³

et al. 2011

Linköping Electronic Conference Proceedings

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show abstract

“…In Refs. [18] and [19], the authors adopt the same model as in Refs. [17]; a mixing model based on the turbulent kinetic energy generated by the spray is added to calculate the burned gas temperature.…”

Section: Introductionmentioning

confidence: 99%

“…[18] and directly related to the turbulent kinetic energy and its dissipation in Ref. [19]. However, in a view of real time simulations, multi-zone spray models require high computational time window inappropriate for real time specifications, and especially when the entire vehicle has to be modeled.…”

Section: Introductionmentioning

confidence: 99%

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Combined mean value engine model and crank angle resolved in-cylinder modeling with NOx emissions model for real-time Diesel engine simulations at high engine speed

Maroteaux

Saad

2015

Energy

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Investigation of transient deterioration mechanism and improved method for turbocharged diesel engine

Han¹,

Zhang²,

Liu³

et al. 2016

Energy

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Development of a Coupling Approach between 0D D.I. Diesel Combustion and Pollutant Models: Application to a Transient Engine Evolution

Cited by 7 publications

References 20 publications

From Physical Modeling to Real-Time Simulation : Feed back on the use of Modelica in the engine control development toolchain

From Physical Modeling to Real-Time Simulation : Feed back on the use of Modelica in the engine control development toolchain

Combined mean value engine model and crank angle resolved in-cylinder modeling with NOx emissions model for real-time Diesel engine simulations at high engine speed

Investigation of transient deterioration mechanism and improved method for turbocharged diesel engine

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