The Development Of Electric Vehicles
Electric vehicles save earth from global warming they can run with one or more than onemotors. They three An electric vehicle, also called an EV, which they help us to conserve petrol, resources and help kinds of mechanism like they convert fuel into electrical energy, solar energy and battery and they are used in different kinds of vehicles like bikes, cars, aircraft, spaceships,. etc. They are inverted in the mid of 19th century. The engine used in the electric vehicles was modern internal combustion engines. They perform very good as compare as the fuel vehicles. The electric vehicle’s time has came(Brant, Build your own electric vehicle,1993,p. xiii).
In program of building EV,s Brant is also one of the program manager of the project. This project works in the state of New York over all they spend 100 million dollars to bring the AFC busses in the world finally they success in bringing them. We will see the cost of batteries for EV’s come down too! The best path is that we can expect a 300-miles-range and they can pickup of 0 to 60 in 3. 4seconds. EV’s conservations use frames currently approved by National Traffic and Highway Administration (NHTSA). It is amazing to see, but we are closer than we have ever been to getting electric cars. My point is that you can get an EV today. You can also take any vehicle you want and convert in to an EV. You can also encourage the fix-it person down the street to help you with your conversation so that more mechanics across the country are build electric cars. However, we still have a carbon-based combustion process that creates heat and pollution (Brant, Build your own electric vehicles, 1993, p. 6).
While the internal combustion engine has hundreds of moving parts, an electric motor or even a controller has only one moving part or no moving parts. This is one of the reasons why EVs are so efficient. To make an EV out of a gas-powered car, pickup, or SUV you are driving now, all you need to do is take out the internal combustion engine along with it is all related to cooling, fueling, and exhaust system parts and add an electric motor, batteries, and a controller. Hey, it doesn’t get any simpler than this for mechanics out there even car manufacturers find EVs easier to build all there is to it batteries and a charger are your fueling system, an electric motor and controller are your electrical system, and the drive system, was as before although today’s advanced EV designs don’t even need the transmission and drive shaft. How much more convenient could EV’s be. There are very few places you can drive in the civilized world where you can’t recharge in a pin chand your other concern is to add water once in a while. If your EV has an onboard charger, extension cord, and plugs available charging is no more. Expect, of course, you probably want to leave a cash tip in this case. for over a century vehicle performance has dominated the consumer dialouge about automobiles. greater power, greater range, more space, and increasing luxriousness have been norms used to judge the value of automotive innovation. stating in the1990s contemporary EVs suffered from a branding crisis.
They where preceived to be weak, slow, and short rangded compared to their powerful ice cousins. twenty years later, howerver consumers and industrial manufactures have ressasses these intial assumption. today the powerful performance characteristics of electrically drivenvehicles are evident. the eficiency of electric motors combined with their instantaneous torque has helped EVs enter the contemporary automotive marketplace as clean and powerful options. meanwhile, performance-minded consumers are lured by the fact that some of the world's fastest has held the federation international de automobile record for thefastest electric land vehicles recording a top speed of just over 495KM/H. venturis new model named is aiming for top speed that will break through the 700KM/H barrier by 2014.
There feasts of performance dissipate lingering doubts about power and coolness factors associated with electric drives. Digitized communications have changed the world fundamentally, even through it all seems so natural now(Edami, advanced Electric drive vehicles,2014,p. 12). performance characteristics of a road vehicles refer to its capability to both acceleration and deceleration, and negotiate grades in a straight-line motion. These characteristics are different depending on the vehicle’s type and size. Mass of the vehicle is of great importance to vehicles performance. By researching not only vehicles. Typically, overall vehicle electrification, but lightweight materials as well, all aspects of vehicle by the tires and the resisting forces acting on vehicle determine the performance potential of the vehicle. Typically, overall vehicle performance is also cornering ability, but as this is mainly a function of suspension geometry and vehicle design it is outside the scope.
The term transmission refers to all of the systems used for transmitting the engine power to the driven wheels or sprockets. The principal requirements for the transmission are to attain the desired maximum vehicle speed with an appropriate engine, to be able to move the vehicle on a steep slope as well as maintain speed on a gentle slope in high gear, and to properly match the engine characteristics to achieve the desired operating fuel economy and acceleration. The two most common types of transmissions for conventional vehicles are manual gear transmission and the automatic transmission with a torque converter. Other type of transmissions, such as the continuous variable transmission, are also in use and beginning to gain popularitydue to their relatively high overall efficiency. To conclude their there are some companies manufacture electric vehicles in India.