Publication detail

Kinematic analysis and experimental validation of dynamics of electrified three wheeled tilting vehicle

TOBIÁŠ, M. FOJTÁŠEK, J. BÖHM, M. ZHÁŇAL, L. PORTEŠ, P.

English title

Kinematic analysis and experimental validation of dynamics of electrified three wheeled tilting vehicle

Type

article in a collection out of WoS and Scopus

Language

en

Original abstract

This paper presents the design of a three-wheeled tilting vehicle equipped with an electric powertrain which can be categorized as e-micromobility. With the growing concern over carbon emissions and their impact on the environment, the paper addresses the vehicle's sustainability aspects. As an electric-powered micromobility solution, the tilting vehicle aims to contribute to reducing the overall carbon footprint in urban and sub-urban areas. The main goal is to develop this vehicle on the existing scooter platform. The challenge in the design is mainly the tilting mechanism of the front axle. It has to allow large suspension travels for travel over bumps on the road or in terrain, generate sufficient tilting angles for precise and safe cornering, while also remaining stable, light and compact for the micromobility usage. To achieve this objective, a multibody model of the suspension was created, and subsequent kinematic and dynamic analyses were carried out to facilitate the process. In addition, a basic simulation of the drivetrain was also carried out for the analysis of longitudinal dynamics and the design of the optimal battery capacity. The results of these simulations were verified by laboratory experiments. The proposed tilting vehicle was built, and its resulting behavior verified by experimental testing on the road and in terrain.

English abstract

This paper presents the design of a three-wheeled tilting vehicle equipped with an electric powertrain which can be categorized as e-micromobility. With the growing concern over carbon emissions and their impact on the environment, the paper addresses the vehicle's sustainability aspects. As an electric-powered micromobility solution, the tilting vehicle aims to contribute to reducing the overall carbon footprint in urban and sub-urban areas. The main goal is to develop this vehicle on the existing scooter platform. The challenge in the design is mainly the tilting mechanism of the front axle. It has to allow large suspension travels for travel over bumps on the road or in terrain, generate sufficient tilting angles for precise and safe cornering, while also remaining stable, light and compact for the micromobility usage. To achieve this objective, a multibody model of the suspension was created, and subsequent kinematic and dynamic analyses were carried out to facilitate the process. In addition, a basic simulation of the drivetrain was also carried out for the analysis of longitudinal dynamics and the design of the optimal battery capacity. The results of these simulations were verified by laboratory experiments. The proposed tilting vehicle was built, and its resulting behavior verified by experimental testing on the road and in terrain.

Keywords in English

Urban vehicle; tilting vehicle; front axle design; electrified vehicle; electric engine

Released

06.09.2023

Publisher

Brno University of Technology, Faculty of Mechanical Engineering

Location

Brno

ISBN

978-80-214-6164-2

Book

Scientific Proceeding KOKA 2023

Edition number

1

Pages from–to

49–49

Pages count

1

BIBTEX


@inproceedings{BUT184672,
  author="Martin {Tobiáš} and Jan {Fojtášek} and Michael {Böhm} and Lubor {Zháňal} and Petr {Porteš},
  title="Kinematic analysis and experimental validation of dynamics of electrified three wheeled tilting vehicle",
  booktitle="Scientific Proceeding KOKA 2023",
  year="2023",
  month="September",
  pages="49--49",
  publisher="Brno University of Technology, Faculty of Mechanical Engineering",
  address="Brno",
  isbn="978-80-214-6164-2"
}