Title :
Vehicle power flow simulations based on trajectories with inductive charging systems: A case study
Author :
El Baghdadi, Mohamed ; Coosemans, T. ; Barrero, R. ; Hegazy, O. ; Al Sakka, Monzer ; Perik, Harold ; Van Mierlo, J.
Author_Institution :
Vrije Univ. Brussel, Brussels, Belgium
Abstract :
This article describes the study of power flows inside an electric commuter bus with a propulsion system that is powered wirelessly while the vehicle drives along its realistic trajectory in the context of public transportation. A dedicated bus model, that has been validated, is built in Matlab/Simulink incorporating inductive powering capability. The simulation method is based primarily on a `backward-looking´ calculation approach. A passenger bus and different bus drive cycles are simulated considering different wireless powering strategies: basic approach, charging at bus stops, powering when the vehicle´s energy storage system reaches a low charge level. Energy impact and requirements for the different situations are investigated.
Keywords :
electric propulsion; electric vehicles; electrical engineering computing; inductive power transmission; load flow; Matlab-Simulink; backward-looking calculation approach; bus drive cycles; charging systems; dedicated bus model; electric commuter bus; electric propulsion system; energy impact; inductive powering capability; low charge level; passenger bus; public transportation; realistic trajectory; vehicle energy storage system; vehicle power flow simulations; wireless powering strategy; Cities and towns; Electric vehicles; Energy storage; Load flow; Mathematical model; Trajectory; Automotive application; Contactless Power Supply; Electric vehicle; Wireless power transmission;
Conference_Titel :
Power Electronics and Applications (EPE), 2013 15th European Conference on
Conference_Location :
Lille
DOI :
10.1109/EPE.2013.6634706
