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Electric bus

This article is about the type of vehicle. For other uses, see Electric bus (disambiguation).
File:Proterra Electric Bus at Charging Station.jpg
A battery electric Proterra BE35 bus operated by San Joaquin RTD, shown beside its fixed charging station.
File:Edison electric bus from 1915.jpg
Edison electric bus from 1915

An electric bus is a bus powered by electricity.

There are two main electric bus categories:

  • Non-autonomous electric buses:
    • The trolleybus is a type of electric bus powered by two overhead electric wires, with electricity being drawn from one wire and returned via the other wire, using two roof-mounted trolley poles.
    • The gapbus is a bus without rails or surface power lines, and it can share the road lane with other vehicles as well. Power is supplied over a gap of Script error: No such module "convert". from a power line embedded in the ground.[1]
    • Online Electric Vehicle (OLEV) by KAIST, propelled by a high frequency electric cable buried under the pavement.[2]
  • The onboard stored-electricity bus (autonomous electric buses):

For information on buses using a combination of internal combustion engines and electric propulsion, see Hybrid electric buses and Dual-mode buses.


Seoul Metropolitan Government runs the world's first commercial all-electric bus service. The bus was developed by Hyundai Heavy Industries and Hankuk Fiber which make a lightweight body from carbon composite material. Provided with Lithium-ion battery and regenerative braking, the bus may run to Script error: No such module "convert". in a single 30 minutes charge. The maximum speed is Script error: No such module "convert"..[3]

First Fast-Charge, Battery-Electric Transit Bus

Proterra's EcoRide BE35 transit bus, called the Ecoliner by Foothill Transit in West Covina, California, is the world’s first heavy duty, fast charge, battery-electric bus. Proterra's ProDrive drive-system uses a UQM motor and regenerative braking that captures 90% of the available energy and returns it to the TerraVolt energy storage system, which in turn increases the total distance the bus can drive by 31-35%. It can travel 30–40 miles on a single charge, is up to 600% more fuel-efficient than a typical diesel or CNG bus, and produces 44% less carbon than CNG.[4]


See also: Ultracapacitor

The best ultracapacitors can only store about 5 percent of the energy that lithium-ion batteries hold, limiting them to a couple of miles per charge. This makes them ineffective as an energy storage medium for passenger vehicles. But what ultracapacitors lack in range they make up in their ability to rapidly charge and discharge. So in vehicles that have to stop frequently and predictably as part of normal operation, energy storage based exclusively on ultracapacitors begins to make sense.[5]

China is experimenting with a new form of electric bus, known as Capabus, which runs without continuous overhead lines by using power stored in large onboard electric double-layer capacitors, which are quickly recharged whenever the vehicle stops at any bus stop (under so-called electric umbrellas), and fully charged in the terminus.

A few prototypes were being tested in Shanghai in early 2005. In 2006, two commercial bus routes began to use electric double-layer capacitor buses; one of them is route 11 in Shanghai.[6] In 2009, Sinautec Automobile Technologies,[7] based in Arlington, VA, and its Chinese partner, Shanghai Aowei Technology Development Company[8] are testing with 17 forty-one seat Ultracap Buses serving the Greater Shanghai area since 2006 without any major technical problems.[9] Another 60 buses will be delivered early next year with ultracapacitors that supply 10 watt-hours per kilogram.

The buses have very predictable routes and need to stop regularly, every Script error: No such module "convert"., allowing opportunities for quick recharging. The trick is to turn some bus stops along the route into charging stations. At these stations, a collector on the top of the bus rises a few feet and touches an overhead charging line. Within a couple of minutes, the ultracapacitor banks stored under the bus seats are fully charged. The buses can also capture energy from braking, and the company says that recharging stations can be equipped with solar panels. A third generation of the product, will give Script error: No such module "convert". of range per charge or better. [5] Such a bus was delivered in Sofia, Bulgaria in May 2014 for 9 months' test. It covers 23 km in 2 charges.[10]

Sinautec estimates that one of its buses has one-tenth the energy cost of a diesel bus and can achieve lifetime fuel savings of $200,000. Also, the buses use 40 percent less electricity compared to an electric trolley bus, mainly because they are lighter and have the regenerative braking benefits. The ultracapacitors are made of activated carbon, and have an energy density of six watt-hours per kilogram (for comparison, a high-performance lithium-ion battery can achieve 200 watt-hours per kilogram), but the ultracapacitor bus is also cheaper than lithium-ion battery buses, about 40 percent less expensive, with a far superior reliability rating.[5][9]

There is also a plug-in hybrid version, which also uses ultracaps.

Proterra's EcoRide BE35 transit bus, called the Ecoliner by Foothill Transit in West Covina, California, is the world’s first heavy duty, fast charge, battery-electric bus. Proterra's ProDrive drive-system uses a UQM motor and regenerative braking that captures 90% of the available energy and returns it to the TerraVolt energy storage system, which in turn increases the total distance the bus can drive by 31-35%. It can travel 30–40 miles on a single charge, is up to 600% more fuel-efficient than a typical diesel or CNG bus, and produces 44% less carbon than CNG.[4]

Future developments

Sinautec is in discussions with MIT's Schindall about developing ultracapacitors of higher energy density using vertically aligned carbon nanotube structures that give the devices more surface area for holding a charge. So far, they are able to get twice the energy density of an existing ultracapacitor, but they are trying to get about five times. This would create an ultracapacitor with one-quarter of the energy density of a lithium-ion battery.[11]

Future developments includes the use of inductive charging under the street, to avoid overhead wiring. A pad under each bus stop and at each stop light along the way would be used.

Pantographs and underbody collectors at bus stops

Pantographs and underbody collectors are integrated in bus stops to quick electric bus recharge, making possible to use a smaller battery on the bus, which reduces the investment and subsequent costs.[12][13][14][15]


Main article: Solar bus

Tindo is an experimental battery electric bus being tested in Adelaide, Australia. The word "Tindo" comes from the aboriginal word for sun. The bus will get its electricity from a photovoltaic system on Adelaide's central bus station. Rides are free as part of Adelaide's public transport system.[16]


There is a Script error: No such module "convert". pure electric bus being developed, using a pre-commercial battery technology. Electric Fuel Corporation is developing and demonstrating a Script error: No such module "convert". electric bus powered by a zinc air cell,[17] along with an ultracapacitor. The zinc-air energy device, often described as a battery, converts zinc to zinc oxide in a process that provides energy to the bus. The bus is not recharged; instead, the zinc oxide cartridges are swapped out for new zinc ones. This bus has shown a range of over Script error: No such module "convert". in testing and has been demonstrated in Las Vegas, Nevada. However, this technology is in the development phase, and several major hurdles must be overcome before it can be adopted for transit fleet use, including available refueling infrastructure or use in bus stations.[18]

Onboard solar panels

Main article: Solar vehicle

Air conditioning

Solar panels and supercapacitors are used in some electric buses to power the specific air conditioning circuit.

School Buses

In 2014, the first production model all-electric school bus was delivered to the Kings Canyon Unified School District in California’s San Joaquin Valley. The Class-A school bus was built by Trans Tech Bus, using an electric powertrain control system developed by Motiv Power Systems, of Foster City, CA. The bus was one of four the district ordered. The first round of SST-e buses (as they are called) is partly funded by the AB 118 Air Quality Improvement Program administered by the California Air Resources Board.

The Trans Tech/Motiv vehicle has passed all KCUSD and California Highway Patrol inspections and certifications. Although some diesel hybrids are in use, this is the first modern electric school bus approved for student transportation by any state.

File:First New Zero-Emission School Bus in California.jpg
The first all-electric school bus in the state of California pausing outside the California capitol building in Sacramento.

Makers and models

Transit use

For information on where trolleybuses are in use, see Trolleybus usage by country and List of trolleybus systems.

Transit authorities that use battery buses or other types of all-electric buses, other than trolleybuses:




  • India's first electric bus has been launched in Bangalore.[19]


File:Electric bus BK6122EV1.jpg
Beijing's electric bus fleet in service during the 2008 Olympics.


South Korea

  • Seoul has 15 electric buses nicknamed "Peanut Bus" for their shape, transferring people from subway stations in downtown to the N Seoul Tower, circulating Mt. Namsan.[30]
  • Seoul's Gangnam District will have 11 electric buses in operation from February 2013 and 270 electric buses by the end of 2013, increasing to 400 buses by 2014.[31] At least 3,500 electric buses will be introduced in phases until 2020, which will account for half of Seoul's bus fleet.[32]
  • Gumi will have the world's first wireless electric bus, known as Online Electric Vehicle, in operation from July 2013 developed by KAIST. Electricity is wirelessly fed into the bus from the tracks.[2][33]
  • Pohang will have automatically battery switching electric buses in operation from July 2013. Unlike conventional plug-in charging buses, the battery pack is automatically swapped with a fully charged one before complete drainage.[34]


There is a European Union directive that mandates the purchase of electric buses for public services.



  • Espoo Cobus EL2500 (bus 11 Friisilä-Tapiola Centre


File:Tosa ets palexpo.jpg
ABB TOSA Energy Transfer System


  • In 2014 in Chelyabinsk began to run electric buses (hybrid trolleybus and electric car). Moves up to 30 kilometers on routes unequipped wires to distant parts of the city.[42]

North America



United States


There is a Californian mandate (Zero Emission Bus, in short, ZBus) that 15% of new buses after 2011 be electric.[48] The ZBus Regulation is part of the Fleet Rule for Transit Agencies, which is also referred to as the Public Transit Agencies Regulation.[49][50]

South America






See also

External links


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  2. ^ a b OLEV
  3. ^
  4. ^ a b
  5. ^ a b c "Next Stop: Ultracapacitor Buses". Technology Review. Retrieved 2010-07-28. 
  6. ^ [1] (in Chinese, archived page)
  7. ^ "SINAUTEC, Automobile Technology, LLC". Retrieved 2010-07-28. 
  8. ^ "Aowei Technology". Retrieved 2010-07-28. 
  9. ^ a b "Ultracapacitor Buses Work... As Long as You have Lots of Quick-Charge Stations". TreeHugger. Retrieved 2010-07-28. 
  10. ^
  11. ^ "Next Stop: Ultracapacitor Buses". Technology Review. Retrieved 2010-07-28. 
  12. ^ Large-capacity, flash-charging, battery-powered pilot bus takes to the street.
  13. ^ Current collectors for electric busses
  14. ^ A Giant Charger That Juices Up Electric Buses in Three Minutes
  15. ^ Ultrafast Electric Bus Charging, Opbrid
  16. ^ "All-Electric, Solar-Powered, Free Bus!!!". Retrieved 2010-07-28. 
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  20. ^ "Chinese carmaker BYD's Changsha facility becomes the country's leading new energy vehicle base". AMTonline. 2012-09-28. Retrieved 2012-10-26.
  21. ^ "比亚迪k9纯电动大巴海口运行状况良好_中国电动汽车网站资讯频道" (in Chinese). 2011-10-11. Retrieved 2012-10-26.
  22. ^ First Thailand Orders for Long-range BYD e6 EV". Global Renewable News. 2012-09-10. Retrieved 2012-10-26.
  23. ^ "Bus Technology Comparisons Released by Clinton Climate Initiative C40 Cities Program -". 2012-10-06. Retrieved 2012-10-26.
  24. ^ 比亚迪天津建纯电动公交基地_汽车_凤凰网 (in Chinese). Retrieved 2012-10-26.
  25. ^ 陕西:西安首批比亚迪电动公交车投入运营 -中国客车信息网(客车资讯 客车新闻 客车动态 客车门户 客车企业 客车产品) (in Chinese). Retrieved 2012-10-26.
  26. ^ "Zonda New Energy BRT City Bus served Yancheng". ZondaBus. Retrieved 2010-07-28. 
  27. ^ "【EVバス運行開始】定期路線として全国初の運用開始". Response. (in Japanese). 2012-03-11. Retrieved 2012-03-14. 
  28. ^ 墨田区内循環バス「すみまるくん」「すみりんちゃん」、3月20日運行開始 /東京. Yahoo! Japan News (in Japanese). 2012-03-07. Retrieved 2012-03-14. 
  29. ^ Mitsubishi to supply two electric buses in Kitakyushu City, Japan
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  36. ^ Invalid language code.
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  38. ^ a b Periodista Digital. "El autobús eléctrico de El Ejido es el 1º de la comunidad y el 2º en España". Retrieved 2010-12-12. 
  39. ^ "Our Products - Tecnobus - Autobus e minibus per il trasporto pubblico". 2006-05-01. Retrieved 2010-12-12. 
  40. ^ TOSA2013 The project aims to introduce a new system of mass transport with electric “flash” recharging of the buses at selected stops (overhead conductive charging)
  41. ^ Invalid language code.
  42. ^ "В Челябинске начал курсировать электробус.". 
  43. ^ Business Wire (2012-05-04). "City of Windsor First in North America to Launch BYD Environmentally-Friendly Electric Buses". Business Wire. Retrieved 2012-10-26.
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  45. ^ "Écolobus". Réseau de transport de la Capitale (in French). Québec. Retrieved 2010-07-31. 
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  49. ^ "Zero Emission Buses". Retrieved 2010-07-28. 
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  54. ^ "Future Rapid Transportation System Unveiled in Bogotá". 2013-03-18. Retrieved 2013-03-21.
  55. ^ "BYD bringing electric buses to Uruguay; targeting more than 500 by 2015". Green Car Congress. 2012-07-19. Retrieved 2012-10-26.