J Brady, M O'Mahony - Applied energy, 2016 - Elsevier
Understanding real-world driving conditions in the form of driving cycles is instrumental in the design of efficient powertrains and energy storage systems for electric vehicles. In …
X Zhao, X Zhao, Q Yu, Y Ye, M Yu - Transportation Research Part D …, 2020 - Elsevier
This paper develops a systematic and practical construction methodology of a representative urban driving cycle for electric vehicles, taking Xi'an as a case study. The …
The preference and the development of electromobility are included among the priorities of transport policies in many European countries. This article deals with the issue of electric …
Road transport is a significant contributor of pollutant emissions in the cities of developing countries. Driving cycles are required for the estimation of fuel consumption and exhaust …
Innovative technological solutions have become increasingly critical in addressing the transportation sector's environmental impact. Passenger vehicles present an opportunity to …
Significant climatic shifts occurred during this period, resulting in threatening consequences for people's lives and industries. Global warming is one of the most serious consequences of …
Y Ye, X Zhao, J Zhang - Transportation Research Part D: Transport and …, 2023 - Elsevier
Due to the fundamental differences in motors and internal combustion engines, the real-time energy consumption profiles of internal combustion engine vehicles (ICEVs) and electric …
K Zhang, J Ruan, T Li, H Cui, C Wu - Energy, 2023 - Elsevier
Nowadays, the trend of powertrain electrification in the public transportation sector is clear. To meet the dramatic load variation and relatively high handling stability requirements for …
S Mansour, M Raeesi - International Journal of Hydrogen Energy, 2024 - Elsevier
In this study, fuel cell vehicles (FCVs) and electric vehicles (EVs) are considered for energy, ie, hydrogen and electricity, consumption in varying working conditions, taking into account …