Electric car

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An electric car or electric vehicle (EV) is a passenger automobile that is propelled by an electric traction motor, using electrical energy as the primary source of propulsion. The term normally refers to a plug-in electric vehicle, typically a battery electric vehicle (BEV), which only uses energy stored in on-board battery packs, but broadly may also include plug-in hybrid electric vehicle (PHEV), range-extended electric vehicle (REEV) and fuel cell electric vehicle (FCEV), which can convert electric power from other fuels via a generator or a fuel cell.

Compared to conventional internal combustion engine (ICE) vehicles, electric cars are quieter, more responsive, have superior energy conversion efficiency and no exhaust emissions, as well as a typically lower overall carbon footprint from manufacturing to end of life[1][2] (even when a fossil-fuel power plant supplying the electricity might add to its emissions). Due to the superior efficiency of electric motors, electric cars also generate less waste heat, thus reducing the need for engine cooling systems that are often large, complicated and maintenance-prone in ICE vehicles.

The electric vehicle battery typically needs to be plugged into a mains electricity power supply for recharging in order to maximize the cruising range. Recharging an electric car can be done at different kinds of charging stations; these charging stations can be installed in private homes, parking garages and public areas.[3] There is also research and development in, as well as deployment of, other technologies such as battery swapping and inductive charging. As the recharging infrastructure (especially fast chargers) is still in its infancy, range anxiety and time cost are frequent psychological obstacles during consumer purchasing decisions against electric cars.

Worldwide, 14 million plug-in electric cars were sold in 2023, 18% of new car sales, up from 14% in 2022.[4] Many countries have established government incentives for plug-in electric vehicles, tax credits, subsidies, and other non-monetary incentives while several countries have legislated to phase-out sales of fossil fuel cars,[5][6] to reduce air pollution and limit climate change.[7][8] EVs are expected to account for over one-fifth of global car sales in 2024.[4]

China currently has the largest stock of electric vehicles in the world, with cumulative sales of 5.5 million units through December 2020,[9]Template:Update inline although these figures also include heavy-duty commercial vehicles such as buses, garbage trucks and sanitation vehicles, and only accounts for vehicles manufactured in China.[10][11][12][13][14][15] In the United States and the European Union, as of 2020, the total cost of ownership of recent electric vehicles is cheaper than that of equivalent ICE cars, due to lower fueling and maintenance costs.[16][17]

In 2023, the Tesla Model Y became the world's best selling car.[18] The Tesla Model 3 became the world's all-time best-selling electric car in early 2020,[19] and in June 2021 became the first electric car to pass 1 million global sales.[20] Together with other emerging automotive technologies such as autonomous driving, connected vehicles and shared mobility, electric cars form a future mobility vision called Autonomous, Connected, Electric and Shared (ACES) Mobility.[21]Script error: No such module "Unsubst".

Terminology

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The term "electric car" typically refers specifically to battery electric vehicles (BEVs) or all-electric cars, a type of electric vehicle (EV) that has an onboard rechargeable battery pack that can be plugged in and charged from the electric grid, and the electricity stored on the vehicle is the only energy source that provide propulsion for the wheels. The term generally refers to highway-capable automobiles, but there are also low-speed electric vehicles with limitations in terms of weight, power, and maximum speed that are allowed to travel on certain public roads. The latter are classified as Neighborhood Electric Vehicles (NEVs) in the United States,[22] and as electric motorised quadricycles in Europe.[23]

History

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Early developments

Robert Anderson is often credited with inventing the first electric car some time between 1832 and 1839.[24]

The following experimental electric cars appeared during the 1880s:

Electricity was among the preferred methods for automobile propulsion in the late 19th and early 20th centuries, providing a level of comfort and an ease of operation that could not be achieved by the gasoline-driven cars of the time.[33] The electric vehicle fleet peaked at approximately 30,000 vehicles at the turn of the 20th century.[34]

In 1897, electric cars first found commercial use as taxis in Britain and in the United States. In London, Walter Bersey's electric cabs were the first self-propelled vehicles for hire at a time when cabs were horse-drawn.[35] In New York City, a fleet of twelve hansom cabs and one brougham, based on the design of the Electrobat II, formed part of a project funded in part by the Electric Storage Battery Company of Philadelphia.[36] During the 20th century, the main manufacturers of electric vehicles in the United States included Anthony Electric, Baker, Columbia, Anderson, Edison, Riker, Milburn, Bailey Electric, and Detroit Electric. Their electric vehicles were quieter than gasoline-powered ones, and did not require gear changes.[37][38]

Six electric cars held the land speed record in the 19th century.[39] The last of them was the rocket-shaped La Jamais Contente, driven by Camille Jenatzy, which broke the Script error: No such module "convert". speed barrier by reaching a top speed of Script error: No such module "convert". in 1899.

Electric cars remained popular until advances in internal-combustion engine (ICE) cars and mass production of cheaper gasoline- and diesel-powered vehicles, especially the Ford Model T, led to a decline.[32] ICE cars' much quicker refueling times and cheaper production costs made them more popular. However, a decisive moment came with the introduction in 1912 of the electric starter motor[40] that replaced other, often laborious, methods of starting the ICE, such as hand-cranking.

Modern electric cars

In the early 1990s the California Air Resources Board (CARB) began a push for more fuel-efficient, lower-emissions vehicles, with the ultimate goal of a move to zero-emissions vehicles such as electric vehicles.[43][44] In response, automakers developed electric models. These early cars were eventually withdrawn from the U.S. market, because of a massive campaign by the US automakers to discredit the idea of electric cars.[45]

California electric-automaker Tesla Motors began development in 2004 of what would become the Tesla Roadster, first delivered to customers in 2008. The Roadster was the first highway-legal all-electric car to use lithium-ion battery cells, and the first production all-electric car to travel more than Script error: No such module "convert". per charge.[46]

Better Place, a venture-backed company based in Palo Alto, California, but steered from Israel, developed and sold battery charging and battery swapping services for electric cars. The company was publicly launched on 29 October 2007 and announced deployment of electric vehicle networks in Israel, Denmark and Hawaii in 2008 and 2009. The company planned to deploy the infrastructure on a country-by-country basis. In January 2008, Better Place announced a memorandum of understanding with Renault-Nissan to build the world's first Electric Recharge Grid Operator (ERGO) model for Israel. Under the agreement, Better Place would build the electric recharge grid and Renault-Nissan would provide the electric vehicles. Better Place filed for bankruptcy in Israel in May 2013. The company's financial difficulties were caused by mismanagement, wasteful efforts to establish toeholds and run pilots in too many countries, the high investment required to develop the charging and swapping infrastructure, and a market penetration far lower than originally predicted.[47]

File:Volkswagen ID.3 at IAA 2019 IMG 0779.jpg
Volkswagen Group has invested in a wide-ranging electrification strategy in Europe, North America and China, with its electric "MEB" platform.

The Mitsubishi i-MiEV, launched in 2009 in Japan, was the first highway-legal series production electric car,[48] and also the first all-electric car to sell more than 10,000 units. Several months later, the Nissan Leaf, launched in 2010, surpassed the i MiEV as the best selling all-electric car at that time.[49]

Starting in 2008, a renaissance in electric vehicle manufacturing occurred due to advances in batteries, and the desire to reduce greenhouse-gas emissions and to improve urban air quality.[50] During the 2010s, the electric vehicle industry in China expanded rapidly with government support.[51] Several automakers marked up the prices of their electric vehicles in anticipation of the subsidy adjustments, including Tesla, Volkswagen and Guangzhou-based GAC Group, which counts Fiat, Honda, Isuzu, Mitsubishi, and Toyota as foreign partners.[52]

In July 2019 US-based Motor Trend magazine awarded the fully-electric Tesla Model S the title "ultimate car of the year".[53] In March 2020 the Tesla Model 3 passed the Nissan Leaf to become the world's all-time best-selling electric car, with more than 500,000 units delivered;[19] it reached the milestone of 1 million global sales in June 2021.[20]

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In the third quarter of 2021, the Alliance for Automotive Innovation reported that sales of electric vehicles had reached six percent of all US light-duty automotive sales, the highest volume of EV sales ever recorded at 187,000 vehicles. This was an 11% sales increase, as opposed to a 1.3% increase in gasoline and diesel-powered units. The report indicated that California was the US leader in EV with nearly 40% of US purchases, followed by Florida – 6%, Texas – 5% and New York 4.4%.[54]

Electric companies from the Middle East have been designing electric cars. Oman's Mays Motors have developed the Mays i E1 which is expected to begin production in 2023. Built from carbon fibre, it has a range of about Script error: No such module "convert". and can accelerate from Script error: No such module "convert". in about 4 secs.[55] In Turkey, the EV company Togg is starting production of its electric vehicles. Batteries will be created in a joint venture with the Chinese company Farasis Energy.[56]

Economics

Manufacturing cost

The most expensive part of an electric car is its battery. The price decreased from Template:Euro per kWh in 2010, to Template:Euro in 2017, to Template:Euro in 2019.[57][58] In China LFP batteries are popular and are cheaper.[59]

Total cost of ownership

In the EU and US, the total cost of ownership of recent electric cars is cheaper than that of equivalent gasoline cars, due to lower fueling and maintenance costs.[16][17][60] A 2024 Consumer Reports analysis of 29 car brands found Tesla was the least expensive to maintain over a 10-year period; Tesla was the only all-electric brand included.[61]

The greater the distance driven per year, the more likely the total cost of ownership for an electric car will be less than for an equivalent ICE car.[62] The break-even distance varies by country depending on the taxes, subsidies, and different costs of energy. In some countries the comparison may vary by city, as a type of car may have different charges to enter different cities; for example, in England, London charges ICE cars more than Birmingham does.[63]

Purchase cost

Several national and local governments have established EV incentives to reduce the purchase price of electric cars and other plug-ins.[64][65][66][67]

since 2020Template:Dated maintenance category (articles)Script error: No such module "Check for unknown parameters"., the electric vehicle battery is more than a quarter of the total cost of the car.[68] New purchase prices are expected to drop below those of new ICE cars when battery costs fall below Template:USD per kWh, which is forecast to be in the mid-2020s.[69][70]

Leasing or subscriptions are popular in some countries,[71][72] depending somewhat on national taxes and subsidies,[73] and end of lease cars are expanding the second hand market.[74]

Running costs

Electricity almost always costs less than gasoline per kilometer travelled, but the price of electricity often varies depending on where and what time of day the car is charged.[75][76] Cost savings are also affected by the price of gasoline which can vary by location.[77]

Environmental aspects

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The Salar de Uyuni in Bolivia is one of the largest known lithium reserves in the world.[78][79]

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Electric cars have several benefits when replacing ICE cars, including a significant reduction of local air pollution, as they do not emit exhaust pollutants such as volatile organic compounds, hydrocarbons, carbon monoxide, ozone, lead, and various oxides of nitrogen.[80] Similar to ICE vehicles, electric cars emit particulates from tyre and brake wear[81] which may damage health,[82] although regenerative braking in electric cars means less brake dust.[83] More research is needed on non-exhaust particulates.[84] The sourcing of fossil fuels (oil well to gasoline tank) causes further damage as well as use of resources during the extraction and refinement processes.

Depending on the production process and the source of the electricity to charge the vehicle, emissions may be partly shifted from cities to the plants that generate electricity and produce the car as well as to the transportation of material.[43] The amount of carbon dioxide emitted depends on the emissions of the electricity source and the efficiency of the vehicle. For electricity from the grid, the life-cycle emissions vary depending on the proportion of coal-fired power, but are always less than ICE cars.[85]

The cost of installing charging infrastructure has been estimated to be repaid by health cost savings in less than three years.[86] According to a 2020 study, balancing lithium supply and demand for the rest of the century will require good recycling systems, vehicle-to-grid integration, and lower lithium intensity of transportation.[87]

The adoption of electric cars has accelerated due to advancements in battery technology, environmental concerns, and supportive government policies, making them a key player in the transition to cleaner transportation options.[88] [89]

Some activists and journalists have raised concerns over the perceived lack of impact of electric cars in solving the climate change crisis[90] compared to other, less popularized methods.[91] These concerns have largely centered around the existence of less carbon-intensive and more efficient forms of transportation such as active mobility,[92] mass transit and e-scooters and the continuation of a system designed for cars first.[93]

Public opinion

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A 2022 climate survey highlighting European, American, and Chinese car buying preferences.[94]

A 2022 survey found that 33% of car buyers in Europe will opt for a petrol or diesel car when purchasing a new vehicle. 67% of the respondents mentioned opting for the hybrid or electric version.[95][96] More specifically, it found that electric cars are only preferred by 28% of Europeans, making them the least preferred type of vehicle. 39% of Europeans tend to prefer hybrid vehicles, while 33% prefer petrol or diesel vehicles.[95][97]

44% Chinese car buyers, on the other hand, are the most likely to buy an electric car, while 38% of Americans would opt for a hybrid car, 33% would prefer petrol or diesel, while only 29% would go for an electric car.[95][98]

Specifically for the EU, 47% of car buyers over 65 years old are likely to purchase a hybrid vehicle, while 31% of younger respondents do not consider hybrid vehicles a good option. 35% would rather opt for a petrol or diesel vehicle, and 24% for an electric car instead of a hybrid.[95][99]

In the EU, only 13% of the total population do not plan on owning a vehicle at all.[95]

Performance

Acceleration and drivetrain design

File:Electric car diagram.svg
Typical "skateboard" layout with the battery as floor and a motor at one or both axles

Electric motors can provide high power-to-weight ratios. Batteries can be designed to supply the electrical current needed to support these motors. Electric motors have a flat torque curve down to zero speed. For simplicity and reliability, most electric cars use fixed-ratio gearboxes and have no clutch.

Many electric cars have faster acceleration than average ICE cars, largely due to reduced drivetrain frictional losses and the more quickly-available torque of an electric motor.[100] However, NEVs may have a low acceleration due to their relatively weak motors.

Electric vehicles can also use a motor in each wheel hub or next to the wheels; this is rare but claimed to be safer.[101] Electric vehicles that lack an axle, differential, or transmission can have less drivetrain inertia. Some direct current motor-equipped drag racer EVs have simple two-speed manual transmissions to improve top speed.[102] The concept electric supercar Rimac Concept One claims it can go from Script error: No such module "convert". in 2.5 seconds. Tesla claims the upcoming Tesla Roadster will go Script error: No such module "convert". in 1.9 seconds.[103]

Energy efficiency

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Energy efficiency of electric cars in towns and on motorways according to the DoE

Internal combustion engines have thermodynamic limits on efficiency, expressed as a fraction of energy used to propel the vehicle compared to energy produced by burning fuel. Gasoline engines effectively use only 15% of the fuel energy content to move the vehicle or to power accessories; diesel engines can reach on-board efficiency of 20%; electric vehicles convert over 77% of the electrical energy from the grid to power at the wheels.[104][105][106] This is partially offset by power required to move the significant weight of the batteries.

Electric motors are more efficient than internal combustion engines in converting stored energy into driving a vehicle. However, they are not equally efficient at all speeds. To allow for this, some cars with dual electric motors have one electric motor with a gear optimised for city speeds and the second electric motor with a gear optimised for highway speeds. The electronics select the motor that has the best efficiency for the current speed and acceleration.[107] Regenerative braking, which is most common in electric vehicles, can recover as much as one fifth of the energy normally lost during braking.[43][105]

Cabin heating and cooling

Combustion powered cars harness waste heat from the engine to provide cabin heating, but this option is not available in an electric vehicle. While heating can be provided with an electric resistance heater, higher efficiency and integral cooling can be obtained with a reversible heat pump, such as on the Nissan Leaf.[108] PTC junction cooling[109] is also attractive for its simplicity—this kind of system is used, for example, in the 2008 Tesla Roadster.

To avoid using part of the battery's energy for heating and thus reducing the range, some models allow the cabin to be heated while the car is plugged in. For example, the Nissan Leaf, the Mitsubishi i-MiEV, Renault Zoe and Tesla cars can be preheated while the vehicle is plugged in.[110][111][112]

Some electric cars (for example, the Citroën Berlingo Electrique) use an auxiliary heating system (for example gasoline-fueled units manufactured by Webasto or Eberspächer) but sacrifice "green" and "Zero emissions" credentials. Cabin cooling can be augmented with solar power external batteries and USB fans or coolers, or by automatically allowing outside air to flow through the car when parked; two models of the 2010 Toyota Prius include this feature as an option.[113]

Safety

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Side impact test of a Tesla Model X

The safety issues of BEVs are largely dealt with by the international standard ISO 6469. This document is divided into three parts dealing with specific issues:

  • On-board electrical energy storage, i.e. the battery[114]
  • Functional safety means and protection against failures[115]
  • Protection of persons against electrical hazards[116]

Research published in the British Medical Journal in 2024 indicates that between 2013 and 2017 in the United Kingdom, electric cars killed pedestrians at twice the rate of petrol or diesel vehicles because "they are less audible to pedestrians in urban areas".[117] Jurisdictions have passed laws requiring electric vehicles to be manufactured with sound generators.[117]

Weight

The weight of the batteries themselves usually makes an EV far heavier than a comparable gasoline vehicle. In a collision, the occupants of a heavy vehicle will, on average, suffer fewer and less serious injuries than the occupants of a lighter vehicle; therefore, the additional weight brings safety benefits to the occupant, while increasing harm to others.[118] On average, an accident will cause about 50% more injuries to the occupants of a Script error: No such module "convert". vehicle than those in a Script error: No such module "convert". vehicle.[119] Heavier cars are more dangerous to people outside the car if they hit a pedestrian or another vehicle.[120]

Stability

The battery in skateboard configuration lowers the center of gravity, increasing driving stability, lowering the risk of an accident through loss of control.[121] Additionally, a lower center of gravity provides a greater resistance to roll-over crashes.[122] If there is a separate motor near or in each wheel, this is claimed to be safer due to better handling.[123]

Risk of fire

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Like their ICE counterparts, electric vehicle batteries can catch fire after a crash or mechanical failure.[124] Plug-in electric vehicle fire incidents have occurred, albeit fewer per distance traveled than ICE vehicles.[125] Some cars' high-voltage systems are designed to shut down automatically in the event of an airbag deployment,[126][127] and in case of failure firefighters may be trained for manual high-voltage system shutdown.[128][129] Much more water may be required than for ICE car fires and a thermal imaging camera is recommended to warn of possible re-ignition of battery fires.[130][131]

Controls

since 2018Template:Dated maintenance category (articles)Script error: No such module "Check for unknown parameters"., most electric cars have similar driving controls to that of a car with a conventional automatic transmission. Even though the motor may be permanently connected to the wheels through a fixed-ratio gear, and no parking pawl may be present, the modes "P" and "N" are often still provided on the selector. In this case, the motor is disabled in "N" and an electrically actuated hand brake provides the "P" mode.

In some cars, the motor will spin slowly to provide a small amount of creep in "D", similar to a traditional automatic transmission car.[132]

When an internal combustion vehicle's accelerator is released, it may slow by engine braking, depending on the type of transmission and mode. EVs are usually equipped with regenerative braking that slows the vehicle and recharges the battery somewhat.[133] Regenerative braking systems also decrease the use of the conventional brakes (similar to engine braking in an ICE vehicle), reducing brake wear and maintenance costs.

Batteries

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Nissan Leaf battery pack

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Lithium-ion-based batteries are often used for their high power and energy density.[134] Batteries with different chemical compositions are becoming more widely used, such as lithium iron phosphate which is not dependent on nickel and cobalt so can be used to make cheaper batteries and thus cheaper cars.[135]

Range

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Comparison of EPA-rated range for model year 2020 electric cars rated up until January 2020.
Comparison of EPA-rated range for model year 2020 electric cars rated up until January 2020[136]

The range of an electric car depends on the number and type of batteries used, and (as with all vehicles), the aerodynamics, weight and type of vehicle, performance requirements, and the weather.[137] Cars marketed for mainly city use are often manufactured with a short range battery to keep them small and light.[138]

Most electric cars are fitted with a display of the expected range. This may take into account how the vehicle is being used and what the battery is powering. However, since factors can vary over the route, the estimate can vary from the actual range. The display allows the driver to make informed choices about driving speed and whether to stop at a charging point en route. Some roadside assistance organizations offer charge trucks to recharge electric cars in case of emergency.[139]

Charging

Connectors

Script error: No such module "Labelled list hatnote". Most electric cars use a wired connection to supply electricity for recharging. Electric vehicle charging plugs are not universal throughout the world. However vehicles using one type of plug are generally able to charge at other types of charging stations through the use of plug adapters.[140]

The Type 2 connector is the most common type of plug, but different versions are used in China and Europe.[141][142]

The Type 1 (also called SAE J1772) connector is common in North America[143][144] but rare elsewhere, as it does not support three-phase charging.[145]

Wireless charging, either for stationary cars or as an electric road,[146] is less common since 2021Template:Dated maintenance category (articles)Script error: No such module "Check for unknown parameters"., but is used in some cities for taxis.[147][148]

Home charging

Electric cars are usually charged overnight from a home charging station; sometimes known as a charging point, wallbox charger, or simply a charger; in a garage or on the outside of a house.[149][150] since 2021Template:Dated maintenance category (articles)Script error: No such module "Check for unknown parameters". typical home chargers are 7 kW, but not all include smart charging.[149] Compared to fossil fuel vehicles, the need for charging using public infrastructure is diminished because of the opportunities for home charging; vehicles can be plugged in and begin each day with a full charge.[151] Charging from a standard outlet is also possible but very slow.

Public charging

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Charging station at Rio de Janeiro, Brazil. This station is run by Petrobras and uses solar energy.

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Public charging stations are almost always faster than home chargers,[152] with many supplying direct current to avoid the bottleneck of going through the car's AC to DC converter,[153] since 2021Template:Dated maintenance category (articles)Script error: No such module "Check for unknown parameters". the fastest being 350 kW.[154]

Combined Charging System (CCS) is the most widespread charging standard,[142] whereas the GB/T 27930 standard is used in China, and CHAdeMO in Japan. The United States has no de facto standard, with a mix of CCS, Tesla Superchargers, and CHAdeMO charging stations.

Charging an electric vehicle using public charging stations takes longer than refueling a fossil fuel vehicle. The speed at which a vehicle can recharge depends on the charging station's charging speed and the vehicle's own capacity to receive a charge. since 2021Template:Dated maintenance category (articles)Script error: No such module "Check for unknown parameters". some cars are 400-volt and some 800-volt.[155] Connecting a vehicle that can accommodate very fast charging to a charging station with a very high rate of charge can refill the vehicle's battery to 80% in 15 to 20 minutes. [156][157]

Vehicles and charging stations with slower charging speeds may take as long as two hours to refill a battery to 80%. As with a mobile phone, the final 20% takes longer because the systems slow down to fill the battery safely and avoid damaging it.Script error: No such module "Unsubst".

File:NIO Power Battery Swap (cropped).jpg
A battery swapping station operated by Nio

Some companies are building battery swapping stations, to substantially reduce the effective time to recharge.[158][159] Some electric cars (for example, the BMW i3) have an optional gasoline range extender. The system is intended as an emergency backup to extend range to the next recharging location, and not for long-distance travel.[160]

Electric roads

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File:Electric road systems.svg
Three types of electric road systems. An electric bus (black) receives power from the road: (A) with three inductive pickups (red) from a strip of resonant inductive coils (blue) embedded several centimeters under the road (gray); (B) with a current collector (red) sliding over a ground-level power supply rail segment (blue) flush with the surface of the road (gray); (C) with an overhead current collector (red) sliding against a powered overhead line (blue)

An electric road system (ERS) is a road which supplies electric power to vehicles travelling on it. Common implementations are overhead power lines above the road, ground-level power supply through conductive rails, and dynamic wireless power transfer (DWPT) through resonant inductive coils or inductive rails embedded in the road. Overhead power lines are limited to commercial vehicles while ground-level rails and inductive power transfer can be used by any vehicle, which allows for public charging through a power metering and billing systems. Of the three methods, ground-level conductive rails are estimated to be the most cost-effective.[161]Template:Rp

National electric road projects

Government studies and trials have been conducted in several countries seeking a national electric road network.

Korea was the first to implement an induction-based public electric road with a commercial bus line in 2013 after testing an experimental shuttle service in 2009,[162]Template:Rp but it was shut down due to aging infrastructure amidst controversy over the continued public funding of the technology.[163]

United Kingdom municipal projects in 2015[164] and 2021 found wireless electric roads financially unfeasible.[165]

Sweden has been performing assessments of various electric road technologies since 2013 under the Swedish Transport Administration electric road program.[166]Template:Rp After receiving electric road construction offers in excess of the project's budget in 2023, Sweden pursued cost-reduction measures for either wireless or rail electric roads.[167] The project's final report was published in 2024, which recommended against funding a national electric road network in Sweden as it would not be cost-effective, unless the technology was adopted by its trading partners such as by France and Germany.[168][169]

Germany found in 2023 that the wireless electric road system (wERS) by Electreon collects 64.3% of the transmitted energy, poses many difficulties during installation, and blocks access to other infrastructure in the road.[170] Germany trialed overhead lines in three projects and reported they are too expensive, difficult to maintain, and pose a safety risk.[171][172][173]

France found similar drawbacks for overhead lines as Germany did. France began several electric road pilot projects in 2023 for inductive and rail systems.[174] Ground-level power supply systems are considered the most likely candidates.[175]

Vehicle-to-grid: uploading and grid buffering

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During peak load periods, when the cost of generation can be very high, electric vehicles with vehicle-to-grid capabilities could contribute energy to the grid. These vehicles can then be recharged during off-peak hours at cheaper rates while helping to absorb excess night time generation. The batteries in the vehicles serve as a distributed storage system to buffer power.[176]

Lifespan

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As with all lithium-ion batteries, electric vehicle batteries may degrade over long periods of time, especially if they are frequently charged to 100%; however, this may take at least several years before being noticeable.[177] A typical warranty is 8 years or Template:Cvt,[178] but for non-professional drivers mileage may not be relevant, and the batteries usually last much longer,[179] perhaps 15 to 20 years in the car and then more years in another use.[180]

Currently available electric cars

File:BEVsSales-2010-2023ByCountry.png
Share of new cars sold that are battery-electric and plug-in hybrid, 2010 to 2023 for selected countries.

Sales of electric cars

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Tesla became the world's leading electric vehicle manufacturer in December 2019.[181][182] Its Model S was the world's top selling plug-in electric car in 2015 and 2016,[183][184] its Model 3 has been the world's best selling plug-in electric car for four consecutive years, from 2018 to 2021, and the Model Y was the top selling plug-in car in 2022.[185][186][187][188][189] The Tesla Model 3 surpassed the Leaf in early 2020 to become the world's cumulative best selling electric car.[19] Tesla produced its 1 millionth electric car in March 2020, becoming the first auto manufacturer to do so,[190] and in June 2021, the Model 3 became the first electric car to pass 1 million sales.[20] Tesla has been listed as the world's top selling plug-in electric car manufacturer, both as a brand and by automotive group for four years running, from 2018 to 2021.[186][191][192][193][187] At the end of 2021, Tesla's global cumulative sales since 2012 totaled 2.3 million units,[194] with 936,222 of those delivered in 2021.[195]

BYD Auto is another leading electric vehicle manufacturer, with the majority of its sales coming from China. From 2018 to 2023, BYD produced nearly 3.18 million purely plug-in electric car, with 1,574,822 of those were produced in 2023 alone.[196] In the fourth quarter of 2023, BYD surpassed Tesla as the top-selling electric vehicle manufacturer by selling 526,409 battery electric cars, while Tesla delivered 484,507 vehicles.[197][198]

since December 2021Template:Dated maintenance category (articles)Script error: No such module "Check for unknown parameters"., the Renault–Nissan–Mitsubishi Alliance listed as one of major all-electric vehicle manufacturers, with global all-electric vehicle sales totaling over 1 million light-duty electric vehicles, including those manufactured by Mitsubishi Motors since 2009.[199][200] Nissan leads global sales within the Alliance, with 1 million cars and vans sold by July 2023,[201] followed by the Groupe Renault with more than 397,000 electric vehicles sold worldwide through December 2020, including its Twizy heavy quadricycle.[202] since July 2023Template:Dated maintenance category (articles)Script error: No such module "Check for unknown parameters"., global sales totaled over 650,000 units since inception.[201]

Other leading electric vehicles manufacturers are GAC Aion (part of GAC Group, with 962,385 cumulative sales since December 2023Template:Dated maintenance category (articles)Script error: No such module "Check for unknown parameters".),[203] SAIC Motor with 1,838,000 units (since July 2023Template:Dated maintenance category (articles)Script error: No such module "Check for unknown parameters".), Geely, and Volkswagen.[204][205][206][207][208]

The following table lists the all-time best-selling highway-capable all-electric cars with cumulative global sales of over 300,000 units:

All-time top-selling highway-capable(1) all-electric passenger car nameplates
Company Model Image Market launch Lifetime global sales Total sales through Annual global sales Status Ref
File:Tesla T symbol.svg
Tesla, Inc.		 Tesla Model Y File:Tesla Model Y 1X7A6211.jpg 2020-03 3,393,136 2024-09 1,200,000 (2024, estimate) In production [185][186][209][210][211][212][213][214]
File:Tesla T symbol.svg
Tesla, Inc.		 Tesla Model 3 File:2019 Tesla Model 3 Performance AWD Front.jpg 2017-07 2,627,871 2024-09 500,000 (2024, estimate) In production [185][186][215][209][212][213]
File:Wuling-logo.svg
SAIC-GM-Wuling		 Wuling Hongguang Mini EV File:2021 Wuling Hongguang Mini EV Macaron (front).jpg 2020-07 1,426,929 2024-12 261,141 (2024) In production [185][186][209][216][217][218]
File:BYD Auto 2022 logo.svg
BYD 		BYD Yuan Plus / Atto 3 File:BYD Atto 3 1X7A6491.jpg 2022-02 923,796 2024-12 309,536 (2024) In production [217][219][220]
File:BYD Auto 2022 logo.svg
BYD 		BYD Dolphin File:2021 BYD Dolphin EV (front).jpg 2021-08 800,754 2024-12 198,320 (2024) In production [185][209][221][222][223]
File:BYD Auto 2022 logo.svg
BYD 		BYD Seagull File:2023 ВYD Seagull (front).jpg 2023-04 759,511 2024-12 479,294 (2024) In production [224][225]
File:Nissan Motor Corporation 2020 logo-local file.svg
Nissan		 Nissan Leaf File:Nissan Leaf 2018 (31874639158) (cropped).jpg 2010-12 ~650,000 2023-07 64,201 (2021) In production [186][201]
File:לוגו של קבוצת GAC.png
GAC Group 		Aion S File:2021 GAC Aion S Plus (front).jpg 2019-05 608,162 2024-12 122,793 (2024) In production [185][186][209][226][227][219]
File:BYD Auto 2022 logo.svg
BYD 		BYD Qin EV File:BYD Qin Plus EV 005 (cropped).jpg 2016-03 596,487 2024-12 142,330 (2024) In production [219][217][228][229][230][231]
File:לוגו של קבוצת GAC.png
GAC Group 		Aion Y File:2021 GAC Aion Y (front).jpg 2021-04 528,502 2024-12 145,152 (2024) In production [219][217][228][232]
File:Volkswagen logo 2019.svg
Volkswagen 		Volkswagen ID.4 File:2020 Volkswagen ID.4 Pro (Netherlands) front view.jpg 2020-09 493,219 2023-12 192,686 (2023) In production [185][186][233][212]
File:BYD Auto 2022 logo.svg
BYD 		BYD Han EV File:2020 BYD Han EV front.jpg 2020-03 456,306 2024-12 89,177 (2024) In production [219][217][228][229][231]
File:Wuling-logo.svg

Wuling

Wuling Binguo File:2024 Wuling BinguoEV Long Range (Indonesia) front view.jpg 2023-02 425,033 2024-12 191,298 (2024) In production [234][235]
File:2021 Renault Group logo.svg
Renault		 Renault Zoe File:Renault Zoe R110 Z.E. 50 Experience (Facelift) – f 22112020.jpg 2012-12 413,975 2023-06 15,706 (2023) Ceased production [202][236][237][238]
File:Hyundai Motor Company logo.svg
Hyundai 		Hyundai Kona Electric File:Hyundai Kona Electric (SX2) 1X7A1554.jpg 2018-05 382,271 2024-12 52,628 (2024) In production [239]
File:Hyundai Motor Company logo.svg
Hyundai 		Hyundai Ioniq 5 File:Hyundai Ioniq 5.jpg 2021-03 373,826 2024-12 93,396 (2024) In production [239]
File:Chery logo.svg
Chery 		Chery eQ1 File:2022 Chery eQ1 (facelift, front).jpg 2017-03 368,361 2024-12 30,310 (2024) In production [240][241][242][243]
File:Tesla T symbol.svg
Tesla, Inc.		 Tesla Model S File:Tesla Model S (2023) Motorworld Munich 1X7A0025.jpg 2012-06 ~363,900 2022-12 ~35,000 (2022) In production [244]
File:Changan Automobile Logo.svg
Changan Automobile 		Changan Lumin File:2022 Chang'an Lumin (front).jpg 2022-04 355,994 2024-12 141,246 (2024) In production [245][246][247]
File:Volkswagen logo 2019.svg
Volkswagen 		Volkswagen ID.3 File:2020 Volkswagen ID.3 1st Front.jpg 2019-11 325,770 2023-12 139,268 (2023) In production [248][249][250][212]
Notes:
(1) Vehicles are considered highway-capable if able to achieve at least a top speed of Script error: No such module "convert"..

Electric cars by country

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In the year of 2021, the total number of electric cars on the world's roads went to about 16.5 million. The sales of electric cars in the first quarter of 2022 went up to 2 million.[251] China has the largest all-electric car fleet in use, with 2.58 million at the end of 2019, more than half (53.9%) of the world's electric car stock.

All-electric cars have oversold plug-in hybrids since 2012.[252][188][189][253] Script error: No such module "Multiple image".

Government policies and incentives

File:EV parking lot Oslo 10 2018 3766.jpg
A dedicated electric car free charging and parking lot in Oslo

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File:4 out of 10 Europeans on average say subsidies for electric cars should be a priority to fight climate change, but there are disparities among countries..svg
Four out of ten Europeans interviewed for the European Investment Bank climate survey thought subsidies for electric cars should be a priority to fight climate change.

Several national, provincial, and local governments around the world have introduced policies to support the mass-market adoption of plug-in electric vehicles. A variety of policies have been established to provide: financial support to consumers and manufacturers; non-monetary incentives; subsidies for the deployment of charging infrastructure; electric vehicle charging stations in buildings; and long-term regulations with specific targets.[254][255][256]

Timeline of national targets
for full ICE phase out or
100% ZEV car sales[254][257]
Selected countries Year
Norway (100% ZEV sales) 2025
Denmark 2030
Iceland
Ireland
Netherlands (100% ZEV sales)
Sweden
United Kingdom (100% ZEV sales) 2035
France 2040
Canada (100% ZEV sales)
Singapore
Germany (100% ZEV sales) 2050
U.S. (10 ZEV states)
Japan (100% HEV/PHEV/ZEV sales)

Financial incentives for consumers are aiming to make electric car purchase price competitive with conventional cars due to the higher upfront cost of electric vehicles. Depending on battery size, there are one-time purchase incentives such as grants and tax credits; exemptions from import duties; exemptions from road tolls and congestion charges; and exemption of registration and annual fees.

Among the non-monetary incentives, there are several perks such allowing plug-in vehicles access to bus lanes and high-occupancy vehicle lanes, free parking and free charging.[255] Some countries or cities that restrict private car ownership (for example, a purchase quota system for new vehicles), or have implemented permanent driving restrictions (for example, no-drive days), have these schemes exclude electric vehicles to promote their adoption.[258][259][260][261][262][263] Several countries, including England and India, are introducing regulations that require electric vehicle charging stations in certain buildings.[256][264][265]

Some government have also established long term regulatory signals with specific targets such as zero-emissions vehicle (ZEV) mandates, national or regional CO2 emission regulations, stringent fuel economy standards, and the phase out of internal combustion engine vehicle sales.[254][255] For example, Norway set a national goal that by 2025 all new car sales should be ZEVs (battery electric or hydrogen).[266][267] While these incentives aim to facilitate a quicker transition from internal combustion cars, they have been criticized by some economists for creating excess deadweight loss in the electric car market, which may partially counteract environmental gains.[268][269][270]

EV plans from major manufacturers

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Electric vehicles (EVs) have gained significant traction as an integral component of the global automotive landscape in recent years. Major automakers from around the world have adopted EVs as a critical component of their strategic plans, indicating a paradigm shift toward sustainable transportation.

As of Manufacturer Investment Investment
Timeframe 		# EVs Year
Goal 		Notes
2020-11 Volkswagen $86 billion 2025 27 2022 Plans 27 electric vehicles by 2022, on a dedicated EV platform dubbed "Modular Electric Toolkit" and initialed as MEB.[271] In November 2020 it announced the intention to invest $86 billion in the following five years, aimed at developing EVs and increasing its share in the EV market. Total capital expenditure will include "digital factories", automotive software and self-driving cars.[272]
2020-11 GM $27 billion 30 2035

[273]

Announced that it is boosting its EV and self-driving investment from $20 billion to $27 billion, and it currently plans to have 30 EVs on the market by the end of 2025 (including: the Hummer EV; the Cadillac Lyriq SUV; Buick, GMC, and Chevrolet EVs; and a Chevy compact crossover EV).[274] CEO Barra said 40% of the vehicles GM will offer in the United States will be battery electric vehicles by the end of 2025.[275] GM's "BEV3" next-generation electric vehicle platform is designed to be flexible for use in many different vehicle types, such as front, rear and all-wheel drive configurations.[276]
2019-01 Mercedes $23 billion 2030 10 2022 Plans to increase their electric car manufacturing to 50% in global sales by 2030.[277]
2019-07 Ford $29 billion

[278]

2025 Will use Volkswagen's Modular Electric Toolkit ("MEB") to design and build its own fully electric vehicles starting in 2023.[279] The Ford Mustang Mach-E is an electric crossover that will reach up to Script error: No such module "convert"..[280] Ford is planning to release an electric F-150 in the 2021 time frame.[281][282]
2019-03 BMW 12 2025 Plans 12 all electric vehicles by 2025, using a fifth-generation electric powertrain architecture, which will save weight and cost and increase capacity.[283] BMW has ordered Template:Euro worth of battery cells for the period from 2021 through 2030.[284][285][286]
2020-01 Hyundai 23 2025 Announced that it plans 23 pure electric cars by 2025.[287] Hyundai will announce its next generation electric vehicle platform, named e-GMP, in 2021.[288]
2019-06 Toyota Has developed a global EV platform named e-TNGA that can accommodate a three-row SUV, sporty sedan, small crossover or a boxy compact.[289] Toyota and Subaru will release a new EV on a shared platform;[290] it will be about the size of a Toyota RAV4 or a Subaru Forester.
2019-04 29 automakers $300 billion 2029 A Reuters analysis of 29 global automakers concluded that automakers are planning on spending $300 billion over the next 5 to 10 years on electric cars, with 45% of that investment projected to occur in China.[291]
2020-10 Fiat Launched its new electric version of the New 500 for sale in Europe starting in early 2021.[292][293]
2020-11 Nissan Announced the intention to sell only electric and hybrid cars in China from 2025, introducing nine new models. Nissan other plans includes manufacturing, by 2035, half zero-emission vehicles and half gasoline-electric hybrid vehicles.[294] In 2018 Infiniti, the luxury brand of Nissan, announced that by 2021 all newly introduced vehicles will be electric or hybrid.[295]
2020-12 Audi €35 billion 2021–2025 20 2025 30 new electrified models by 2025, of which 20 PEV.[296] By 2030–2035, Audi intends to offer just electric vehicles.[297]

Forecasts

Total global EV sales in 2030 were predicted to reach 31.1 million by Deloitte.[298] The International Energy Agency predicted that the total global stock of EVs would reach almost 145 million by 2030 under current policies, or 230 million if Sustainable Development policies were adopted.[299]

As of 2024, there are approximately 600 million people in sub-Saharan Africa without access to electricity, representing 83% of the world's unelectrified population.[300] The World Bank Group and the African Development Bank plan to provide access to electricity to 300 million people in that region by 2030.[300] At this time, there are just over 20,000 electric vehicles and less than 1,000 charging stations in Africa.[301] However, EV manufacturers have already built or are planning to build production plants in 21 African countries.[301]

See also

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References

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  11. Script error: No such module "citation/CS1". Chinese sales of domestically-built new energy vehicles in 2017 totaled 777,000, consisting of 652,000 all-electric vehicles and 125,000 plug-in hybrid vehicles. Sales of domestically-produced new energy passenger vehicles totaled 579,000 units, consisting of 468,000 all-electric cars and 111,000 plug-in hybrids. Only domestically built all-electric vehicles, plug-in hybrids and fuel cell vehicles qualify for government subsidies in China.
  12. Script error: No such module "citation/CS1". Chinese sales of new energy vehicles in 2018 totaled 1.256 million, consisting of 984,000 all-electric vehicles and 271,000 plug-in hybrid vehicles.
  13. Script error: No such module "citation/CS1". Sales of new energy vehicles totaled 1,206,000 units in 2019, down 4.0% from 2018, and includes 2,737 fuel cell vehicles. Battery electric vehicle sales totaled 972,000 units (down 1.2%) and plug-in hybrid sales totaled 232,000 vehicles (down 14.5%). Sales figures include passenger cars, buses and commercial vehicles..
  14. Script error: No such module "citation/CS1". NEV sales in China totaled 1.637 million in 2020, consisting of 1.246 million passenger cars and 121,000 commercial vehicles.
  15. Script error: No such module "citation/CS1". NEV sales in China totaled 3.521 million in 2021 (all classes), consisting of 3.334 million passenger cars and 186,000 commercial vehicles.
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  170. A. Wendt et al., "Wireless Electric Road Systems – Technology Readiness and Recent Developments," 2024 IEEE Wireless Power Technology Conference and Expo (WPTCE), Kyoto, Japan, 2024, pp. 177-182, doi: 10.1109/WPTCE59894.2024.10557264.
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  182. Script error: No such module "citation/CS1".Cumulatively, Tesla has sold about 900,000 electric cars since 2008.
  183. Script error: No such module "citation/CS1". See also detailed 2016 sales and cumulative global sales in the two graphs.
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  185. a b c d e f g Script error: No such module "citation/CS1". "The top 5 global best selling plug-in electric cars in 2022 were the Tesla Model Y (771,300), the BYD Song (BEV + PHEV) with 477,094, the Tesla Model 3 (476,336), the Wuling Hongguang Mini EV (424,031), and the BYD Qin Plus (BEV + PHEV) with 315,236. BYD Han (BEV + PHEV) sales totaled 273,323 units, BYD Yuan Plus 201,744 and VW ID.4 174,092 units."
  186. a b c d e f g h Script error: No such module "citation/CS1". "The top 3 global best selling plug-in electric cars in 2021 were the Tesla Model 3 (500,713), the Wuling Hongguang Mini EV (424,138), and the Tesla Model Y (410,517). Nissan Leaf sales totaled 64,201 units and Chery eQ 68,821 units."
  187. a b Script error: No such module "citation/CS1". "Global sales totaled 3,124,793 plug-in passenger cars in 2020, with a BEV to PHEV ratio of 69:31, and a global market share of 4%. The world's top selling plug-in car was the Tesla Model 3 with 365,240 units delivered, and Tesla was the top selling manufacturer of plug-in passenger cars in 2019 with 499,535 units, followed by VW with 220,220."
  188. a b Cite error: Script error: No such module "Namespace detect".Script error: No such module "Namespace detect".
  189. a b Script error: No such module "citation/CS1". "Global sales totaled 2,018,247 plug-in passenger cars in 2018, with a BEV:PHEV ratio of 69:31, and a market share of 2.1%. The world's top selling plug-in car was the Tesla Model 3, and Tesla was the top selling manufacturer of plug-in passenger cars in 2018, followed by BYD."
  190. Script error: No such module "citation/CS1".
  191. Script error: No such module "citation/CS1". "Tesla led plug-in car sales among automotive groups in 2019, with 367,849 units delivered, followed by BYD with 225,757, and the Renault-Nissan Alliance with 183,299. Accounting just for the all-electric segment (1.6 million electric cars sold in 2019), again Tesla was the leader, followed by BAIC (163,838), BYD (153,085), the Renault-Nissan Alliance (132,762), and SAIC (105,573)."
  192. Script error: No such module "citation/CS1". "Tesla led plug-in car sales among automotive groups in 2018, with 245,240 units delivered, followed by BYD with 229,338, and the Renault-Nissan Alliance with 192,711."
  193. Script error: No such module "citation/CS1". The global share of plug-in electric cars by brand in 2018 was led by Tesla with 12%, followed by BYD with 11%, BMW with 9%, BAIC with 6%, and Roewe and Nissan, both with 5%.
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  195. Script error: No such module "citation/CS1". See table "Operational Summary" pp. 7 and 8 for revised and final production and sales numbers.
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  200. Script error: No such module "citation/CS1". See pp. 24 and 39. Since the launch of the Renault electric program, the Group has sold more than 252,000 electric vehicles in Europe and more than 273,550 electric vehicles worldwide. Since inception, a total of 181,893 Zoe cars, 48,821 Kangoo Z.E. electric vans and 29,118 Twitzy quadricycles have been sold globally through December 2019. Global sales of the Zoe totaled 48,269 units in 2019, and Kangoo ZE totaled 10,349.
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  206. Script error: No such module "citation/CS1".
  207. Script error: No such module "citation/CS1".
  208. Script error: No such module "citation/CS1".
  209. a b c d e Script error: No such module "citation/CS1". "The top 5 global best selling plug-in electric cars during the first half of 2023 were the Tesla Model Y (579,552), the Tesla Model 3 (279,320), the BYD Song (BEV + PHEV) with 259,723, the BYD Qin Plus (BEV + PHEV) with 204,529 and the BYD Yuan Plus/Atto 3 (201,505). The Wuling Hongguang Mini EV sold 122,052 units, the BYD Han (BEV + PHEV) 96,437 units and the VW ID.4 86,481 units."
  210. Script error: No such module "citation/CS1". Global sales of the Tesla Model Y totaled 79,734 units in 2020.
  211. Script error: No such module "citation/CS1".
  212. a b c d Script error: No such module "citation/CS1".
  213. a b Script error: No such module "citation/CS1".
  214. Script error: No such module "citation/CS1".
  215. Script error: No such module "citation/CS1".
  216. Script error: No such module "citation/CS1".
  217. a b c d e Script error: No such module "citation/CS1".
  218. Script error: No such module "citation/CS1".
  219. a b c d e Script error: No such module "citation/CS1".
  220. Script error: No such module "citation/CS1".
  221. Script error: No such module "citation/CS1". "Sales of the BYD Dolphin in China totaled 29,598 units in 2021"
  222. Script error: No such module "citation/CS1".
  223. Script error: No such module "citation/CS1".
  224. Script error: No such module "citation/CS1".
  225. Script error: No such module "citation/CS1".
  226. Script error: No such module "citation/CS1". "Sales of the Aion S in China totaled 32,125 units in 2019 and 45,626 in 2020"
  227. Script error: No such module "citation/CS1".
  228. a b c Script error: No such module "citation/CS1".
  229. a b Script error: No such module "citation/CS1".
  230. Script error: No such module "citation/CS1".
  231. a b Script error: No such module "citation/CS1".
  232. Script error: No such module "citation/CS1".
  233. Script error: No such module "citation/CS1". Sales of the VW ID.4 in Europe totaled 4,810 units in 2020
  234. Script error: No such module "citation/CS1".
  235. Script error: No such module "citation/CS1".
  236. Script error: No such module "citation/CS1". Sales figures includes passenger and light utility variants. Click on the corresponding link to download the file "MONTHLY-SALES-12-2022.XLSX - 588 Ko", and open the tab "Sales by Model (2)" to access sales figures for cumulative sales CYTD 2022 and revised CYTD 2021. Global Zoe sales totaled 40,544 units in 2022 and 77,500 in 2021, including both passenger and LCV variants.
  237. Script error: No such module "citation/CS1". Sales figures includes passenger and light utility variants. Click on the corresponding link to download the file "MONTHLY-SALES-06-2023.XLSX - 69 Ko", and open the tab "Models" to access sales figures for cumulative sales CYTD 2023 through June. Global Zoe sales totaled 11,131 units in the first half of 2023, including both passenger and LCV variants.
  238. Script error: No such module "citation/CS1".
  239. a b Script error: No such module "citation/CS1".
  240. Script error: No such module "citation/CS1".
  241. Script error: No such module "citation/CS1".
  242. Script error: No such module "citation/CS1".
  243. Script error: No such module "citation/CS1".
  244. Script error: No such module "citation/CS1". "See table: Global cumulative EV registrations" by models Cumulative Tesla Model S reached 363,900 units in 2022, up 35,000 from 2021
  245. Script error: No such module "citation/CS1".
  246. Script error: No such module "citation/CS1".
  247. Script error: No such module "citation/CS1".
  248. Script error: No such module "citation/CS1".
  249. Script error: No such module "citation/CS1".
  250. Script error: No such module "citation/CS1".
  251. IEA (2022), Global EV Outlook 2022, IEA, Paris https://www.iea.org/reports/global-ev-outlook-2022
  252. Script error: No such module "citation/CS1". See Exhibit 1: Global electric-vehicle sales, 2010-17.
  253. IEA 2024
  254. a b c Script error: No such module "citation/CS1". See Statistical annex, pp. 247–252 (See Tables A.1 and A.12). The global stock of plug-in electric passenger vehicles totaled 7.2 million cars at the end of 2019, of which, 47% were on the road in China. The stock of plug-in cars consist of 4.8 million battery electric cars (66.6%) and 2.4 million plug-in hybrids (33.3%). In addition, the stock of light commercial plug-in electric vehicles in use totaled 378 thousand units in 2019, and about half a million electric buses were in circulation, most of which are in China.
  255. a b c Script error: No such module "citation/CS1".
  256. a b Script error: No such module "citation/CS1".
  257. Script error: No such module "citation/CS1".
  258. Script error: No such module "Citation/CS1".
  259. Script error: No such module "citation/CS1".
  260. Script error: No such module "citation/CS1".
  261. Script error: No such module "citation/CS1".
  262. Script error: No such module "citation/CS1".
  263. Script error: No such module "citation/CS1".
  264. Script error: No such module "citation/CS1".
  265. Script error: No such module "citation/CS1".
  266. Script error: No such module "citation/CS1".
  267. Script error: No such module "citation/CS1".
  268. Script error: No such module "Citation/CS1".
  269. Script error: No such module "Citation/CS1".
  270. Script error: No such module "Citation/CS1".
  271. Script error: No such module "citation/CS1".
  272. Script error: No such module "citation/CS1".
  273. Script error: No such module "citation/CS1".
  274. Script error: No such module "citation/CS1".
  275. Script error: No such module "citation/CS1".
  276. Script error: No such module "citation/CS1".
  277. Script error: No such module "citation/CS1".
  278. Script error: No such module "citation/CS1".
  279. Script error: No such module "citation/CS1".
  280. Script error: No such module "citation/CS1".
  281. Script error: No such module "citation/CS1".
  282. Script error: No such module "citation/CS1".
  283. Script error: No such module "citation/CS1".
  284. Script error: No such module "citation/CS1".
  285. Script error: No such module "citation/CS1".
  286. Script error: No such module "citation/CS1".
  287. Script error: No such module "citation/CS1".
  288. Script error: No such module "citation/CS1".
  289. Script error: No such module "citation/CS1".
  290. Script error: No such module "citation/CS1".
  291. Script error: No such module "citation/CS1".
  292. Script error: No such module "citation/CS1".
  293. Script error: No such module "citation/CS1".
  294. Script error: No such module "citation/CS1".
  295. Script error: No such module "citation/CS1".
  296. Script error: No such module "citation/CS1".
  297. Script error: No such module "citation/CS1".
  298. Script error: No such module "citation/CS1".
  299. Script error: No such module "citation/CS1".
  300. a b Script error: No such module "citation/CS1".
  301. a b Script error: No such module "citation/CS1".

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External links

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