How many years do electric bus batteries last?

Previous studies considering battery electric bus operation and charging optimisation have assumed battery life of 8 years, (Wang et al., 2017), 9 years (Lee et al., 2021), 12 years (Li, Lo and Xiao, 2019) 3,000 charge/discharge cycles (Ke et al., 2020).



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How much does it cost to replace an electric bus battery? When will that replacement be necessary? The traction battery on an electric school bus could cost around $50,000 to replace, if replacement costs are not covered under warranty. Battery capacity and bus range will decline over time.

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The lifespan of an electric bus can vary depending on several factors, such as the quality of the bus and battery technology, maintenance practices, and operating conditions. On average, electric buses have a lifespan of 12 to 15 years, which is comparable to conventional diesel buses.

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What Are The Disadvantages Of Electric School Buses? The two biggest disadvantages are cost and range. Although an electric bus is likely to save money in the long term, the initial purchase price is considerably higher. This difference can be potentially offset with different funding options.

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It's cheaper to run and maintain an electric bus. Fueling a bus with electricity is only about a third of the cost of fueling it with gas, which saves a considerable amount of money over time. Electric buses also have fewer regular maintenance costs—because they don't run on fuel, there's no need for oil changes.

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Availability was much higher during the last 8 months with an average availability of 84.7%. The battery buses had an overall average efficiency of 2.84 kWh per mile, which equates to a fuel economy of 13.3 miles per diesel gallon equivalent (mpdge).

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On average, diesel buses use 6 miles per gallon [mpg], while electric buses boost that efficiency to an equivalent of 17 mpg. Electric school buses can save more than $170,000 on fuel and maintenance throughout their lifespan.

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Since they do not use gasoline or diesel, BEBs do not produce tailpipe pollution. Thus, BEBs offer a better option than other bus technologies for reducing our greenhouse gas emissions, as well as other harmful pollutants in urban areas.

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Featuring two electric motors engineered to deliver an impressive 550 horsepower, the DuoPower drivetrain has the potential to propel a bus from 0 to 20 mph in under six seconds. With a seating capacity of 29, the bus provides a maximum range of 240 miles and a top speed of 65mph.

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Lithium-ion batteries are currently the dominant form of electric bus batteries.

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While gasoline costs per gallon typically are lower than those of clean-diesel, gasoline is less efficient compared to diesel. On average, a clean-diesel school bus can travel about 510 miles on a tank of diesel vs. only 270 miles on gasoline, based on the same standard-sized fuel tanks.

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Estimated savings An e-bus may be 50% more expensive than a standard diesel option, and that's not including the cost of charging stations. Once over that initial speed bump, however, it's a smooth ride to savings.

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Additionally, commitments from California and major transit hubs, including New York City and Seattle, to go 100 percent electric with their bus fleets have led to estimates that electric buses will make up one-third of the national fleet by 2045.

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