Abstract
Due to increasingly stricter emissions regulations AVL recently introduced a fully integrated electric axle optimized for urban delivery trucks. A key feature of this alternative powertrain concept is the high level of integration of the E-drive components like E-motor, inverter, transmission or cooling directly into the axle. This integration causes high unsprung mass. In addition the installation of the battery changes the position of the center of gravity compared to a conventionally powered truck. These modifications in the weight distribution and the location of the center of gravity have a strong impact on the vehicle dynamics. The aim of this master thesis is to outline a methodology for the evaluation of the driving dynamical behavior of a commercial vehicle by multibody simulation. Moreover this work should clarify the question how the electrification of the truck, with its consequences in the weight distribution affects the driving dynamics. A multibody simulation model was set up whereby one truck is conventionally and one is electrically powered. Subsequently, different standardized and most commonly used driving maneuvers for the in depth investigation of the vertical and lateral dynamics are considered. The results of these simulations of different powertrain concepts are compared to each other. In summary, it can be concluded that the comparison between the conventionally and the electrically driven truck indicates only slight deviations in driving dynamics, although the leaf springs have not been adjusted to the higher unsprung rear axle mass.
Translated title of the contribution | Entwicklung einer Simulationsmethodik zur Beurteilung der Fahrdynamik eines Nutzfahrzeugs mit integrierter E-Achse und Blattfedern |
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Original language | English |
Qualification | Dipl.-Ing. |
Awarding Institution |
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Supervisors/Advisors |
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Award date | 25 Oct 2019 |
Publication status | Published - 2019 |
Bibliographical note
embargoed until 02-10-2024Keywords
- Simulation
- Suspension
- Driving Dynamics
- Truck
- Electrification
- Leaf Spring