Tim J. LaClair scite author profile

This paper evaluates the energy consumption and battery performance of city transit electric buses operating on real day-today routes and standardized bus drive cycles, based on a developed framework tool that links bus electrification feasibility with real-world vehicle performance, city transit bus service reliability, battery sizing and charging infrastructure. The impacts of battery capacity combined with regular and ultrafast charging over different routes have been analyzed in terms of the ability to maintain city transit bus service reliability like conventional buses. The results show that ultrafast charging via frequent short-time boost charging events, for example at a designated bus stop after completing each circuit of an assigned route, can play a significant role in reducing the battery size and can eliminate the need for longer duration charging events that would cause schedule delays. The analysis presented shows that significant benefits can be realized by employing multiple battery configurations and flexible battery swapping practices in electric buses. These flexible design and use options will allow electric buses to service routes of varying city driving patterns and can therefore enable meaningful reductions to the cost of the vehicle and battery while ensuring service that is as reliable as conventional buses.

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Light-duty plug-in electric vehicles in China: An overview on the market and its comparisons to the United States

Hao

Lin

et al. 2019

Renewable and Sustainable Energy Reviews

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Review of stability and thermal conductivity enhancements for salt hydrates

Kumar

Hirschey

LaClair

et al. 2019

Journal of Energy Storage

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Simulated Fuel Economy and Emissions Performance during City and Interstate Driving for a Heavy-Duty Hybrid Truck

Daw¹,

Gao²,

Smith³

et al. 2013

SAE Int. J. Commer. Veh.

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Comparative Study of Hybrid Powertrains on Fuel Saving, Emissions, and Component Energy Loss in HD Trucks

Gao¹,

Finney²,

Daw³

et al. 2014

SAE Int. J. Commer. Veh.

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Simulations of the Fuel Economy and Emissions of Hybrid Transit Buses over Planned Local Routes

Gao¹,

LaClair²,

Daw³

et al. 2014

SAE Int. J. Commer. Veh.

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Modeling of Fuel Consumption for Heavy-Duty Trucks and the Impact of Tire Rolling Resistance

LaClair

Truemner²

2005

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Global kinetic modeling of NH3-SCR with two sites of NH3 storage on Cu-SSZ-13

Gao

Pihl

LaClair

et al. 2021

Chemical Engineering Journal

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Tim J. LaClair

Battery capacity and recharging needs for electric buses in city transit service

Light-duty plug-in electric vehicles in China: An overview on the market and its comparisons to the United States

Review of stability and thermal conductivity enhancements for salt hydrates

Simulated Fuel Economy and Emissions Performance during City and Interstate Driving for a Heavy-Duty Hybrid Truck

Comparative Study of Hybrid Powertrains on Fuel Saving, Emissions, and Component Energy Loss in HD Trucks

Simulations of the Fuel Economy and Emissions of Hybrid Transit Buses over Planned Local Routes

Modeling of Fuel Consumption for Heavy-Duty Trucks and the Impact of Tire Rolling Resistance

Global kinetic modeling of NH3-SCR with two sites of NH3 storage on Cu-SSZ-13

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