Numerical Assessment and Performance Maps Generation of a
Turbocharger Attempted to Be Matched with an Automotive Engine 03-16-05-0033
This also appears in
SAE International Journal of Engines-V132-3EJ
The present article aims to propose an efficient methodology to match
aerodynamically a 1.5 L, three-cylinder downsized diesel engine with a suitable
turbocharger (TC) to boost its performance based on a selection procedure and
computational fluid dynamics (CFD) simulation. First, a radial turbine stage was
sized and designed applying one-dimensional (1D) preliminary design in-house
codes and then followed by a numerical simulation to investigate the flow fields
and to predict its performance. Based on the simulation results, a global
turbine performance map was generated. On the other hand, following a meticulous
selection approach, a suitable TC compressor was chosen from a database.
Therefore, performance maps of the designed turbine and the selected compressor
were matched with the engine simulation model. From the findings, the engine
equipped with the proposed compressor developed an operating area far from the
instabilities limits over the entire speed range, with a maximum surge margin of
23.37% measured at the engine’s extreme conditions (full load and rated power).
Additionally, the new turbocharged (TCed) engine exhibits remarkable improvement
in terms of brake thermal efficiency, specific fuel consumption, compressor and
turbine isentropic efficiencies at the engine rated power of about 5.41%
(corresponding to an increase of 2.13 points), 5.14% (a decrease of 11 g/kW/hr),
4.07%, and 18.11%, respectively, compared to the original TCed engine.
Furthermore, the measured brake power of the new TCed engine presented similar
results as the original one, particularly at high engine speeds. Besides,
maximum deviations of 7.31% and 0.45% were measured between the new and original
TCed engines in terms of in-cylinder pressure and temperature, respectively,
which guarantee the engine thermodynamic strength at the engine’s extreme
conditions. Finally, the developed methodology reported satisfactory results in
terms of the secure functioning and predicted performance of the engine, which
can be considered as an important basis before initiating any detailed
conception and/or further investigations such as vibration, mechanical stress,
and heat transfer for fabrication purposes.
Citation: El Hameur, M., Cerdoun, M., Tarabet, L., and Ferrara, G., "Numerical Assessment and Performance Maps Generation of a Turbocharger Attempted to Be Matched with an Automotive Engine," SAE Int. J. Engines 16(5):559-576, 2023, https://doi.org/10.4271/03-16-05-0033. Download Citation
Author(s):
Mohamed Amine El Hameur, Mahfoudh Cerdoun, Lyes Tarabet, Giovanni Ferrara
Affiliated:
Laboratory of Propulsion and Reactive Systems, Ecole Militaire
Polytechniques, Algeria, University of Florence, Department of Industrial Engineering,
Italy
Pages: 18
ISSN:
1946-3936
e-ISSN:
1946-3944
Related Topics:
Computational fluid dynamics
Diesel / compression ignition engines
Turbochargers
Downsizing
Engine efficiency
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