New energy vehicles can generally travel about 400 kilometers, but this value continues to increase, and the longest ones can already travel more than 1,000 kilometers. Many factors will affect the endurance of electric vehicles. Engine power, road conditions, vehicle weight, drag coefficient, tires, and even the driver's driving habits will all affect the endurance of electric vehicles. And there are many factors above that are difficult to measure. In addition, the mileage of a new energy vehicle depends on the vehicle's battery parameters. Generally, the mileage of a lead-acid battery is around 60 kilometers. The mileage of lithium battery vehicles ranges from 60 to 300 kilometers. Additionally, factors such as air conditioning activation, vehicle weight, and battery loss will also reduce the vehicle's cruising range.icle. 1. Lithium iron phosphate battery is a type of lithium ion battery. Due to its abundant raw materials, it is relatively cheap. In addition, this type of battery has high safety, good high temperature performance and high performance. charging and discharging efficiency, and is mainly used in some pure electric passenger cars, such as JAC iEV4 (cruising range 166km-180km), BYD e6 (cruising range 400km), BAIC E150EV (cruising range 150km). km), Lifan 620EV (cruising range 200 KM-252 KM), etc.; 2. Ternary lithium battery, the biggest advantage of ternary lithium battery is its high energy density, so the size of the battery will be relatively small, which can effectively reduce the size of the vehicle, and the The battery capacity is greater, thus increasing its autonomy. The structure of ternary lithium batteries is instable at high temperatures, which makes the battery less safe and currently more expensive. Mainly used in JAC iEV5 (range 166km-180km), Changan Eado EV, BAIC Senova EV and other models; 3. Lithium cobalt oxide battery, lithium cobalt oxide battery can be said to be Tesla's exclusive battery, lithium cobalt acid batteries have the advantages. of stable structure, high capacity ratio and high density, which makes their driving range more outstanding and overall performance better, but their cost is higher in Tesla models. Tesla Model S range 480KM-613KM.
Lithium-ion electric vehicles can travel around 30 kilometers on a single charge.
The number of miles an electric vehicle's lithium battery can travel depends primarily on the power of your engine and the amperage capacity of the battery. More capacityThe battery city is bigger, the further it can go. be bedridden. In fact, a new lead-acid battery with a capacity of 12 Ah can travel around 25 kilometers when fully charged; a lithium battery can travel about 30 kilometers.
The cruising range of lithium battery electric vehicles is related to the configured capacity of the lithium battery, that is, the larger the configured capacity, the more mileage can be achieved. be long; usually 30AH can travel one kilometer.
History of Electric Vehicles:
The history of electric vehicles predates our most common vehicles powered by internal combustion engines. Hungarian inventor and engineer Jedlik?nyos, the father of the direct current motor, first tested an electromagnetic rotating mobile device in the laboratory in 1828. American Thomas DavenportThomaDavenport built the firstelectric car with direct current motor in 1834.
In 1837, Thomas obtained the first patent in the American automobile industry. Between 1832 and 1838, the Scotsman Robert Anderson invented the electric carriage, a vehicle powered by a primary battery that cannot be recharged. In 1838, the Scotsman Robert Davidson invented the electric train.
The tram that still runs on the road was a patent that appeared in England in 1840.