
Battery electric buses (BEBs) and electric school buses (ESBs) run on electricity only and require recharging their onboard battery packs from an external power source. The average range for BEBs and ESBs varies based on the battery pack capacity and is significantly impacted by weather, driving behavior of the operators,. . BEBs are categorized as long-/extended-range or fast-charge depending on the size of their battery packs. Long-/extended-range BEBs. . There are three types of charging infrastructure for BEBs, all of which can be installed at the maintenance or storage facility (depot) or on-route:. [pdf]
Schools can then sell the electricity stored in the electric bus batteries back to the grid during outages, weather emergencies, and other periods of low energy supply or high energy demand. First, an electric bus is designed to be able to remove energy from the grid as well as put energy back into the grid.
The current battery technology of choice for electric buses is lithium-ion, the price of which has dropped 80 percent since 2010, and is projected to drop another 50 percent by 2020 or 2025. A lithium-ion battery provides enough energy to operate a bus for about 150 miles (in most conditions) before needing to be recharged.
The use of battery electric bus (BEBs) fleets is becoming more attractive to cities seeking to reduce emissions and traffic congestion. While BEB fleets may provide benefits such as lower fuel and maintenance costs, improved performance, lower emissions, and energy security, many challenges need to be overcome to support BEB deployment.
Utilities can also support electric buses by invest-ing in infrastructure for bus charging in depots and on routes, helping to finance the upfront purchasing costs of electric buses, and introducing smart charg-ing systems to maximize integration of renewable energy.
Peters, Adele, Electric school buses are an ingenious solution to help utilities build more battery storage, Fast Company, 2 Dec 2020. https://www. fastcompany.com/90436347/electric-school-buses-are-an-ingenious-solution-to-help-utilities-build-more-battery-storage 37.
Many existing resources provide guidance on incorporating BEBs into service, such as the Transit Cooperative Research Program’s (TCRP) Guidebook for Deploying Zero-Emission Transit Buses, NREL’s Electrifying Transit: A Guidebook for Implementing Battery Electric Buses, and DOE’s Flipping the Switch on Electric School Buses series.
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