Development of a Digital Twin to Support the Calibration of a Highly
Efficient Spark Ignition Engine 2023-01-1215
The role of numerical simulations in the development of innovative and
sustainable powertrains is constantly growing thanks to their capabilities to
significantly reduce the calibration efforts and to point out potential
synergies among different technologies. In such a framework, this paper
describes the development of a fully physical 1D-CFD engine model to support the
calibration of the highly efficient spark ignition engine of the PHOENICE (PHev
towards zerO EmissioNs & ultimate ICE efficiency) EU H2020 project. The
availability of a reliable simulation platform is essential to effectively
exploit the combination of the several features introduced to achieve the
project target of 47% peak gross indicated efficiency, such as
SwumbleTM in-cylinder charge motion, Miller cycle combined with
high Compression Ratio (CR), lean mixture exploiting cooled low pressure Exhaust
Gas Recirculation (EGR) and electrified turbocharging. Particular attention was
paid to the definition of a combustion model capable of predicting engine burn
rates in highly diluted conditions as well as the likelihood of abnormal
combustion phenomena such as knock. A set of preliminary experimental
measurements carried out on the first engine prototype was used to assess the
reliability of the developed digital twin. Afterwards, the 1D-CFD model was used
to identify, under steady state conditions, the optimal setting of calibration
parameters in terms of intake valves actuation, throughout the whole engine
operating map. Findings demonstrated that the lean and diluted combustion
process combined with the high CR of 13.6 and aggressive EIVC strategy enabling
unthrottled operation made it possible to achieve the target of 47% peak gross
indicated efficiency at part load. When operating at full load, the use of
cooled low pressure EGR significantly reduced knock likelihood and permitted to
avoid any mixture enrichment, allowing for the achievement of performance
targets without incurring in fuel consumption penalties.
Citation: TAHTOUH, T., Andre, M., Millo, F., Rolando, L. et al., "Development of a Digital Twin to Support the Calibration of a Highly Efficient Spark Ignition Engine," SAE Technical Paper 2023-01-1215, 2023, https://doi.org/10.4271/2023-01-1215. Download Citation
Author(s):
Toni TAHTOUH, Mathieu Andre, Federico Millo, Luciano Rolando, Giuseppe Castellano, Francesco Bocchieri, Luca Cambriglia, Danilo Raimondo
Affiliated:
IFP Energies nouvelles, Politecnico di Torino, FEV Italia s.r.l., POWERTECH Engineering S.r.l.
Pages: 10
Event:
23rd Stuttgart International Symposium
ISSN:
0148-7191
e-ISSN:
2688-3627
Related Topics:
Spark ignition engines
Combustion and combustion processes
Exhaust gas recirculation (EGR)
Digital twin
Computer simulation
Fuel consumption
Engines
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