Publication detail
Virtual Turbocharger as a Tool for Reality Simulation
NOVOTNÝ, P. VACULA, J. KUDLÁČEK, P.
English title
Virtual Turbocharger as a Tool for Reality Simulation
Type
conference paper
Language
en
Original abstract
The mobility of people and the transport of goods requires powertrains. These powertrains often include internal combustion engines with turbocharging technology. The development of turbochargers requires an increase in their efficiency, for example in the form of reduced mechanical losses. In parallel, however, related processes such as vibration, gas blow-by through the sealing system or lubricant consumption still need to be addressed. The virtual turbocharger is a multiphysical tool for the coupled solution of these processes. This physically wide model is described by a system of differential and algebraic equations, assembled in a multibody system, discretized and solved numerically. The solution results are suitable for calibration by experiments on real turbocharger. A reasonably good agreement with experiments is achieved using the example of a truck engine turbocharger. In terms of the physical description of the processes, the development of computational modelling will continue to proceed simultaneously in two different directions. On the one hand by trying to increase the depth of the physical description, on the other hand by including more physical problems within a single virtual prototype.
English abstract
The mobility of people and the transport of goods requires powertrains. These powertrains often include internal combustion engines with turbocharging technology. The development of turbochargers requires an increase in their efficiency, for example in the form of reduced mechanical losses. In parallel, however, related processes such as vibration, gas blow-by through the sealing system or lubricant consumption still need to be addressed. The virtual turbocharger is a multiphysical tool for the coupled solution of these processes. This physically wide model is described by a system of differential and algebraic equations, assembled in a multibody system, discretized and solved numerically. The solution results are suitable for calibration by experiments on real turbocharger. A reasonably good agreement with experiments is achieved using the example of a truck engine turbocharger. In terms of the physical description of the processes, the development of computational modelling will continue to proceed simultaneously in two different directions. On the one hand by trying to increase the depth of the physical description, on the other hand by including more physical problems within a single virtual prototype.
Keywords in English
Virtual turbocharger Turbocharger Bearing Gas blow-by Vibration Efficiency
Released
14.10.2021
Publisher
Springer
Location
Cham
ISBN
978-3-030-87382-0
Book
Mechanisms and Machine Science, Proceedings of I4SDG Workshop 2021
Edition number
108
Pages from–to
535–544
Pages count
9
BIBTEX
@inproceedings{BUT174961,
author="Pavel {Novotný} and Jiří {Vacula} and Petr {Kudláček},
title="Virtual Turbocharger as a Tool for Reality Simulation",
booktitle="Mechanisms and Machine Science, Proceedings of I4SDG Workshop 2021",
year="2021",
month="October",
pages="535--544",
publisher="Springer",
address="Cham",
isbn="978-3-030-87382-0"
}