Battery electric buses are seen as a well-suited technology for the electrification of road-
based public transport. However, the transition process from conventional diesel to electric …

Charging infrastructure requirements are being largely debated in the context of urban
energy planning for transport electrification. As electric vehicles are gaining momentum, the …

Studies on the electric bus system planning problem have typically focused exclusively on
either the deployment of charging infrastructure or the scheduling of charging events; few …

The decarbonization of city energy systems plays an important role to meet climate targets.
We examine the consequences of integrating electric cars and buses into the city energy …

The EU has to decarbonise by 2050 to achieve the goals of the Paris Agreement. To meet
these long term targets, trucks will need to become zero-emission. One technology that …

Rapid growth in the electrification of bus fleets, driven by substantial environmental benefits,
is facing challenges such as range anxiety, prolonged charging durations, and reduced …

The commercialized deployment and fast adoption of electrified transportation system, ie
electric vehicles (EVs) and plug-in hybrid-electric vehicles (PHEVs) necessitate the fast …

This paper evaluates the impact of vehicle automation and electrification on the applicability
of fixed routes and door-to-door services to supply a feeder transit solution in suburban …

This paper focuses on the potential impact of various options for decarbonization of public
bus transport in Stockholm, with particular attention to electrification. An optimization model …

Combined decisions on equipment and charging schedule for electric buses (e-buses) are
studied in this paper. The most representative day is considered, in which each e-bus fulfills …