TY - JOUR
AU - McGordon, Andrew
AB - Electric motorcycles feature a smaller size and lower weight than electric cars, meaning they have greater manoeuvrability and energy efficiency, which translate to a dynamic riding experience and reduced environmental footprint. From a thermal management perspective, one major challenge is how to maximise the heat dissipation efficiency of the battery system within the limited space available onboard since the battery system represents one of the largest thermal loads onboard. This paper investigates electric motorcycle modelling to facilitate prototype development, emphasising a compact, integrated cooling system for high-voltage powertrain components, including the battery, inverter, and motor. Particularly, the proposed battery model is structured across the pack–module–cell hierarchy, which makes it capable of distinguishing the thermal state of each individual cell and the cell-to-cell performance variations resulting from temperature effects. The integrated cooling system and multi-scale battery modelling method proposed in this paper allow for a quick comparison of performances between different battery module thermal designs, which is specifically suited for early-stage investigation of different concepts. A series and a parallel battery module thermal design are proposed and compared, with a focus on evaluating their impacts on system-level and component-level thermal performances as well as cell-level performance variations, including but not limited to temperature, state of charge, voltage, and state of power. Specifically, the serial thermal design provides better overall cooling efficiency and lower battery pack temperatures, while the parallel design significantly reduces cell-to-cell variations.
TI - Thermal Management for Electric Motorcycles—Multi-Scale Modelling and Battery Thermal Design Evaluation
JF - Applied Sciences
DO - 10.3390/app15052713
DA - 2025-03-03
UR - https://www.deepdyve.com/lp/multidisciplinary-digital-publishing-institute/thermal-management-for-electric-motorcycles-multi-scale-modelling-and-0GCKJnzuTS
SP - 2713
VL - 15
IS - 5
DP - DeepDyve
ER -