The method of developing the power supply system for electric rental go-kart
Abstrakt
This article presents the results of work related to the power supply system for 10kW electric, rental go-kart. The research took into account a few types of battery cells. For the case study, the best option was chosen taking into account the restrictions included in the multicriteria analysis for further application. Chosen BLDC motor and battery type were tested on test stands and simulated in MATLAB/Simulink. Simulation model allowed to compare the characteristics from test stands and simulation and next tune the model. Minimum capacity of the batteries had to allow for at least 20 minutes of drive. Chosen elements: electric motor, motor controller, battery cells, BMS allowed to build the first prototype. Tests in real conditions showed the difference between simulation and research system. We could notice what to improve to tune the simulation model and the kart power supply system.
Słowa kluczowe:
go-kart, kart, electric, vehicle, Model-Based Design, battery cellBibliografia
ADEGBOHUN F., VON JOUANNE A., LEE K.Y. 2019. Autonomous Battery Swapping System and Methodologies of Electric Vehicles. Energies, 12: 667. Google Scholar
BARONTI F., DI RIENZO R., PAPAZAFIROPULOS N., RONCELLA R. 2014. Investigation of series-parallel connections of multi-module batteries for electrified vehicles. IEEE International Electric Vehicle Conference (IEVC), Florence. Google Scholar
Blue Shock Race. 2022. https://blueshockrace.com/ Google Scholar
BRANDL M., GALL H., WENGER M., LORENTZ V., GIEGERICH M., BARONTI F., FANTECHI G., FANUCCI L., RONCELLA R., SALETTI R., SAPONARA S., THALER A., CIFRAIN M., PROCHAZKA W. 2012. Batteries and battery management systems for electric vehicles. Design, Automation & Test in Europe Conference & Exhibition (DATE), Dresen. Google Scholar
DI LECCE D., VERRELLI R., HASSOUN J. 2017. Lithium-ion batteries for sustainable energy storage: recent advances towards new cell configurations. Green Chemistry, 15. https://doi.org/10.1039/C7GC01328K. Google Scholar
DUER S., ZAJKOWSKI K. 2013. Electric motors used the car drives. Autobusy: Technika, Eksploatacja, Systemy Transportowe, 14(10). Google Scholar
Go-Karting Prague. 2022. https://www.kartmax.cz/. Google Scholar
GOŁĘBIEWSKI W. 2018. Concept of the construction of electric Go-kart (ekart). The Archives of Automotive Engineering, 80(2). Google Scholar
HORIBA T. 2014. Lithium-Ion Battery Systems. Proceedings of the IEEE, 102(6): 939-950. https://doi.org/10.1109/JPROC.2014.2319832. Google Scholar
HUGHES A. 2006. Electric motors and drives, Fundamentals, Types and Applications. Elsevier, Amsterdam. Google Scholar
MATEJA K., SKARKA W. 2020. Towards energetic autonomy of UAV. The 27th International Conference on Transdisciplinary Engineering (TE2020), Warszawa. Google Scholar
MATEJA K. 2021. Battery System Design for Electric Go-Kart. The 28th International Conference on Transdisciplinary Engineering (TE2021), Bath. Google Scholar
MIAO Y., HYNAN P., VON JOUANNE A., YOKOCHI A. 2019. Current Li-Ion Battery Technologies in Electric Vehicles and Opportunities for Advancements. Energies. 12(6): 1074. https://doi.org/10.3390/en12061074. Google Scholar
NIESTRÓJ R., ROGALA T., SKARKA W. 2020. An Energy Consumption Model for Designing an AGV Energy Storage System with a PEMFC Stack. Energies, 13(13): 3435. https://doi.org/10.3390/en13133435. Google Scholar
OTL kart. 2022. https://otlkart.com/. Google Scholar
Pitlane. 2022. https://www.gokartywroclaw.pl/. Google Scholar
Praga Global. 2022. https://pragaglobal.com/. Google Scholar
Racing Center Warsaw. 2022. https://rcw.pl/. Google Scholar
SANDEN B., WALLGREN P. 2014. Systems perspectives on electromobility. Chalmers University of Technology, Göteborg. Google Scholar
SARKER M.R., PANDŽIĆ H., ORTEGA-VAZQUEZ M.A. 2013. Electric vehicle battery swapping station: Business case and optimization model. International Conference on Connected Vehicles and Expo (ICCVE), Las Vegas, NV, p. 289-294. https://doi.org/10.1109/ICCVE.2013.6799808. Google Scholar
S-kart. 2022. http://www.s-kart.pl/website/page/?id=3. Google Scholar