2019
DOI: 10.1017/dsi.2019.289
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Conceptual Design of Urban E-Bus Systems with Special Focus on Battery Technology

Abstract: Many cities have announced ambitious plans to introduce zero-emission electric bus systems. The transformation process to electric bus systems opens up a vast design space as different charging strategies, charging technologies and battery types are available. Therefore, a profound assessment strategy is necessary to find a "most suitable system solution" under given strategic and operational requirements.In this study, we present a new methodology for conceptual design of urban electric bus systems. First, th… Show more

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Cited by 16 publications
(8 citation statements)
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References 11 publications
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“…Lee et al [19] on the other hand, have presented an approach based on reliability-based design optimization that optimizes shared autonomous electric vehicles (SAEV's) deployment planning and strategy to better deal with uncertainties and disruptions. Last, Göhlich et al [20] focused on the optimal layout of batteries in the conceptual design process of electric bus systems for urban applications. All three presented directions of research, overall system design, component optimization and operational strategy optimization have intersections with this project.…”
Section: Vehicle Designmentioning
confidence: 99%
“…Lee et al [19] on the other hand, have presented an approach based on reliability-based design optimization that optimizes shared autonomous electric vehicles (SAEV's) deployment planning and strategy to better deal with uncertainties and disruptions. Last, Göhlich et al [20] focused on the optimal layout of batteries in the conceptual design process of electric bus systems for urban applications. All three presented directions of research, overall system design, component optimization and operational strategy optimization have intersections with this project.…”
Section: Vehicle Designmentioning
confidence: 99%
“…Rightsizing of the battery is of major importance, due to both its high price and weight. Battery sizing is generally dependent on the respective charging strategy (Göhlich et al, 2019). Since AMoD vehicles operate in a predictable manner and could be able to reject journeys that will exceed their remaining range, a small safety buffer is sufficient.…”
Section: Propulsion Systemmentioning
confidence: 99%
“…Obviously, automation of the respective charging process is desirable. In both cases a high charging power is required to reduce unproductive dwell-times (Göhlich et al, 2019).…”
Section: Propulsion Systemmentioning
confidence: 99%
“…Lee et al [18] on the other hand, have presented an approach based on reliability-based design optimization that optimizes shared autonomous electric vehicles (SAEV's) deployment planning and strategy to better deal with uncertainties and disruptions. Last, Göhlich et al [19] focused on the optimal layout of batteries in the conceptual design process of electric bus systems for urban applications. All three presented directions of research, overall system design, component optimization and operational strategy optimization have intersections with this project.…”
Section: Vehicle Designmentioning
confidence: 99%