Battery electric vehicle

It would be very unwise to “pull the plug” on electric-car subsidies right now. The industry needs the support. The subsidies are money given by the government to help the auto industry make electric cars and offer discounts for people to buy them. If they went away, car companies would be forced to sell electric vehicles at huge losses of money. The thriving auto industry is one of the few bright spots for business in the U.S. It would be thrown into disarray. The subsidies help make up for tough

RELATED LITERATURE 2.1 Review of Conceptual Literature 2.1.1 Electric Vehicle Figure 2.1 shows a block diagram of an electric vehicle. It contains a battery that supplies energy, an electric motor that drives the wheels, and a controller that regulates the energy flow to the motor. Figure 2.1. Simple block diagram of an electric vehicle (Brant and Leitman, 2009) 2.1.2. Electric Vehicle Operation Electric and internal combustion vehicle are almost the same when it comes to operation. An ignition

Introduction of Electric Vehicle An electric vehicle (EV), also referred to as an electric drive vehicle, is a vehicle that is powered by electricity stored in the vehicle in battery through the use of one or more electric motors.An electric vehicle is an alternative fuel automobile that uses electric motors and motor controllers for propulsion, in place of more common propulsion methods such as the internal combustion engine (ICE). EVs store electricity in an energy storage device, such as battery. The electricity

Advantages and Disadvantages of Electric Cars Introduction to Electric Cars An electric car is a vehicle which is driven by electric engines. The engines use electrical energy which is usually stored in batteries. Electric car is a variation of electric vehicle (EV). EV speaks of any vehicles which are propelled by electric engines. “Electric car” is a general term for high-speed vehicles which are powered by electricity. In the United States, low-speed vehicles which are powered by electricity

Traditional vehicles use gasoline or diesel to power a combustion engine, while hybrid vehicles use both the traditional combustion engine and an electric motor ran on electricity. Hybrid vehicles are superior to their conventional counterparts when it comes to fuel efficiency. Like in traditional vehicles, the combustion motor’s alternator charges the vehicle’s battery. But the difference is that in hybrid cars, there is an electric motor that can utilize the energy generated by the alternator.

Porter’s Five Forces Analysis of Electric Cars 1. Industry Rivalry: - i. Electric cars have to compete directly with the already established traditional vehicles. Traditional vehicles have created a market for themselves and are also now entering into the electric car business, giving tough competition to the electric vehicle manufacturing companies. ii. After the success of electric cars in the West, manufacturers from around the globe are entering into this business. With more players in the

As the piston moves down again, the cycle repeats. Now, in a hybrid car, there is a battery assisting, so that the cylinders have to do less work, and consequently use less fuel. A Prius has only 84 horsepower without its electric battery, and wouldn’t even be able to start! (Regular Car Reviews, Youtube) But this battery isn’t all good, which brings us to the first problem with these hybrid cars. The batteries are made from metals like cobalt, lithium, and nickel. The nickel is mined at a damaging

sells electric vehicles and their electric components, has become one of the fastest growing car companies in recent history. The company’s main goal was to start creating electric vehicles that were accessible and affordable to the public. Founded in 2003 and taking off successfully by 2009, Tesla Motors started selling the first mass-produced vehicle to use lithium-ion battery cells and hold a range of greater than 200 miles on just one charge. Along with building their own electric vehicle models

Abstraction The energy storage technology is quite important for electric hybrid vehicles and pure electric vehicles due to requirement of more power and more efficient with minor compromise on weight and volume. The challenge for developing more advanced energy storage system is capacity or energy density and specific power cannot be achieved at the same time. More specific power means less energy density, and vice versa. The supercapacitor Li-ion hybrid energy storage system has both advantages

HYBRID DESCRIPTION Hybrid Electric Vehicles (HEV) differentiates from basic electric vehicles (EV) through their use of two power sources. The purpose of having two power sources is to utilize the properties of both the electric component and combustion engine to create a vehicle that’s more efficient and less environmentally damaging. Different types of hybrid systems utilise different properties of the power sources through compromise, allowing better performance for the vehicles specifications. Full