System modelling of an electric two-wheeled vehicle for energy management optimization study

• Published in: Evergreen
• Main Author: Sawant S.; Ahsan Shah R.M.R.; Rahman M.; Abd Aziz A.R.; Smith S.; Jumahat A.
• Format: Article
• Language: English
• Published: Joint Journal of Novel Carbon Resource Sciences and Green Asia Strategy 2021
• Online Access: https://www.scopus.com/inward/record.uri?eid=2-s2.0-85116721353&doi=10.5109%2f4491656&partnerID=40&md5=b74a3d05322b18f3fd9ff83534e595cb

This study investigated the performance behaviour and energy management control strategies of an electrified two-wheeled vehicle (E-TWV). The power and energy demands were calculated through a high-fidelity E-TWV model. A lithium-ion battery (LIB) pack was designed and characterized according to electric motor power requirements. Three transient duty cycles, modified assessment and reliability of transport emission models and inventory systems (ARTEMIS), federal test procedure (FTP)-75, and world harmonized test protocol (WLTP) class 2 were used to assess the energy management control strategies. The E-TWV model has managed to meet the power demand with less than 2% across the speed range. The electric motor architecture demonstrated an improvement in the performance acceleration of the vehicle (pass-by accelerations = 4.5 s) and the energy consumption in all transient duty cycles via control strategies implementation and regenerative braking (< 60 W·h/km). All results were also validated using three energy sources, namely coal, natural gas, and combined (CC) gas turbine to determine the well-to-wheel carbon dioxide (CO2) emission. The CC gas turbine produced 45 % less CO2 g/km compared to coal which indicated that the E-TWV can only be successful if the source of energy to charge the LIB is clean and sustainable. © 2021 Novel Carbon Resource Sciences. All rights reserved.