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Proterra’s Electric Bus Breaks a World Record for Range—1,100 Miles [1770km] on a Single Charge

Hamartia Antidote

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https://www.greentechmedia.com/articles/read/proterras-electric-bus-breaks-a-world-record-for-range


If you think Tesla’s 300-plus-mile battery range for its electric cars is a big deal, here’s a new world record that triples that figure.

On Tuesday, electric-bus startup Proterra announced a world record by test-driving an electric bus for a whopping 1,100 miles on a single charge. The previous world record for electric-vehicle range was 632 miles for an electric bus and 1,013 for an electric car.

The milestone shows how battery-powered autos are quickly developing into a competitive form of transportation, even compared to gasoline vehicles.

Researchers at Bloomberg New Energy Finance predict that electric cars will be cheaper to buy than gasoline cars in the U.S. and Europe by 2025. The analyst team at Wood Mackenzie predicts sales will hit 100 million by 2035. That number could be conservative, given how quickly vehicles are improving.

With technologies like Proterra’s, electric vehicles are starting to move into markets beyond passenger cars, like buses, shipping vans and trucks. Tesla plans to unveil an electric semi truck next month.

Proterra’s Chief Commercial Officer Matt Horton described the company’s new record as “a demonstration to the transportation industry that electric vehicles have arrived and are a mainstream, real-world solution.” Proterra, founded in 2004, makes and sells electric buses to cities like Seattle, New York and Dallas.

Most of the company’s electric buses won’t likely have such an extreme range, though its customers can customize the buses and add on range if it’s needed. The company says its newest-generation battery will deliver a bus range with 350 miles. Many of the most popular electric cars available have a range of around 200 miles.

Proterra, which has delivered over 100 electric buses to customers, used lithium-ion batteries supplied by LG Chem for the test, and has also partnered with LG Chem on its latest commercial batteries. The company previously worked with battery maker Toshiba on a shorter-range, faster-charging lithium-titanate oxide battery.

Proterra and LG Chem's battery cells are made in a facility in Burlingame, California, and have been developed to have a longer life, higher performance and safer use than other competitive lithium-ion batteries, say the companies. The Proterra/LG Chem battery has an energy density (amount of energy stored per volume) of 160 watt-hours per kilogram.

Horton says that improved features are a result of better packaging of the lithium-ion battery, not necessarily the chemistry. But eking out range for city customers was important.

“We wanted to make sure that we could meet the needs of every transit agency in America,” said Horton. City buses can often run 40,000 miles a year for 12 years.

While electric buses might not be as attention-grabbing as Tesla luxury electric cars, buses could become electrified the fastest. “Electric buses will be the market to watch in terms of adoption,” said Horton. “The transition [to electric] will happen far, far faster than with passenger cars.”

That’s one of the reasons Proterra, a venture-capital-backed company, has seen some success. This summer, Proterra announced a big investment round of $55 million from BMW’s venture fund, BMW iVentures, and Generation Investment Management, a fund partly managed by Al Gore.

To date, Proterra has raised $195 million, making it one of the more well-funded cleantech startups. Other investors include Kleiner Perkins, the venture fund of General Motors, GM Ventures, family office Tao Capital Partners (of the Pritzkers), Japanese giant Mitsui, and others.

Proterra isn’t the only company making electric buses. Chinese battery and vehicle maker BYD, which is backed by Warren Buffett, has made electric buses, many for the Chinese market, for years. Tesla’s CEO Elon Musk has even talked about Tesla making an electric (and automated) bus one day.

As for Tesla’s semi truck unveiling, Horton says it’s bringing in more interest and attention from the trucking market to electrification. “You now see a lot of OEMs trying to figure out what their electric strategy is,” said Horton.

But Proterra doesn't plan to compete in the electric long-haul truck market. It has the world’s buses to electrify.

 
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Good but I would like to see this with full passenger load and their luggage.
 
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Good but I would like to see this with full passenger load and their luggage.
OP like to post videos that leave out important things such as how fast was the bus going? Its tested on a course, not real stop and go traffic. And yes the bus is not loaded with passengers.
Will be another fail start up. Read some comments .
https://www.indeed.com/cmp/Proterra-Inc/reviews
 
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Take off 30% of that range for a fully loaded bus and a terrain that is not flat as the test circuit.

Which is still good... if the electric recharge time can be reduced significantly then it's game over for ICE vehicles.
 
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Future of mobility is here. Pakistan lacked behind because of idiots in parliament and bureaucracy.
 
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OP like to post videos that leave out important things such as how fast was the bus going? Its tested on a course, not real stop and go traffic. And yes the bus is not loaded with passengers.

It's pretty hard to benchmark a vehicle by driving it on the street randomly without fixed parameters. How much luggage should we expect them to have loaded if this was a long haul bus or is it a no-luggage city transit bus? What kind of traffic should they have driven in? If this bus is going to be used for long haul routes then there would be no bus stops with city traffic or this is for routes where is stops every 100 meters...should they put 10 or 50 people on it?

*If* they put it on an enclosed track and drove it around and around until it ran out of juice that would actually be more real world than what car makers/EPA do to determine the range of new cars (by putting it on a dyno and accelerating/decelerating/stomping on the brakes for 15 or so minutes). Vehicle makers don't take their cars out onto the public roads to determine their stated range..it's all in a controlled environment. Plus the dyno times have a certain percentage deducted at the end to account for real world conditions.


Yes, you know all about failed bus companies. You guys had so many threads about being gung-ho about the above Chinese innovation..even though many of us here were wondering how it could possibly get around corners and not run somebody over. https://defence.pk/pdf/threads/china-worlds-first-model-of-the-transit-explore-bus-unveiled.437766/
That certainly didn't improve your image.
 
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It's pretty hard to benchmark a vehicle by driving it on the street randomly without fixed parameters. How much luggage should we expect them to have loaded if this was a long haul bus or is it a no-luggage city transit bus? What kind of traffic should they have driven in? If this bus is going to be used for long haul routes then there would be no bus stops with city traffic or this is for routes where is stops every 100 meters?

*If* they put it on an enclosed track and drove it around and around until it ran out of juice that would actually be more real world than what car makers/EPA do to determine the range of new cars (by putting it on a dyno and accelerating/decelerating/stomping on the brakes for 15 or so minutes). Vehicle makers don't take cars on the road to determine their range..it's all in a controlled environment.



Yes, you know all about failed bus companies. You guys had so many threads about being gung-ho about the above Chinese innovation..even though many of us here were wondering how it could possibly get around corners and not run somebody over.

Exactly! If you are measuring the maximum range of a new vehicle, you would run it on ideal conditions - i.e. long track without stops!

Besides, being a completely electric vehicle, the overall energy loss due to stop & go traffic would be less in comparison to purely ICE vehicles!

If they are able to get even half this range in real world with full load, it would have done its job. For city traffic as well as long haulage.
 
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