ELECTRIC VEHICLE
An
electric vehicle (EV) is a vehicle powered by an electric motor, instead of an
internal combustion engine (ICE), and the motor is run using the power stored
in the batteries. The batteries have to be charged frequently by plugging into
any main (120 V or 240 V) supply. EV has a much longer history than most people
realize. EVs were
seen presently when physicist introduced the primary DC-powered motor in 1830.The first known electric car was a small model built by Professor
Starting in the Dutch town of Groningen in 1835. The first energy unit was engineered by in 1834 by Thomas
Davenport within the U.S.,
followed by Moses Farmer, who built the first two-passenger EV in 1847. There were no rechargeable
electric cells (batteries) at that time. An energy unit failed to become a viable possibility till the Frenchmen Gaston Planet
and Camille Faure severally
fictitious (1865) and improved (1881) the accumulator. EVs are known as zero emissions
vehicles (ZEVs) and are much environment friendly than gasoline- or LPG powered
vehicles. As EVs have fewer moving parts, maintenance is also minimal. With no engine there are not any oil changes, tune-ups, or timing and there is no
exhaust. EVs square measure are much more energy economical than gas engines and that they are terribly quiet operating. EVs have been in continual use
since the 1900s in various applications. Today these quiet vehicles with no
tailpipe emissions are no longer limited to golf carts. New advances in battery
technology, system integration, aerodynamics, and research and development by
major vehicle manufacturers have led to the producing of electric vehicles that
will play a practical role on city streets. EVs don’t have ICEs in them.
Instead, electrical energy is stored in a storage battery or ultra capacitor,
converted from chemical energy in a fuel cell, or converted from mechanical
energy in a flywheel. This electricity is employed to power an electrical motor, which then
turns the wheels and provides propulsion. Since no fuel is burned in an EV, they don’t produce the
pollution that ICE vehicles do. EVs are not new: The first automobiles to be
built were all EVs, using energy stored in rudimentary lead acid batteries to
drive DC electric motors. Only in the 1910s did gasoline-powered vehicles begin
to make serious inroads in the automobile market. Unfortunately, EVs have a
serious disadvantage that played a large role in the takeover by ICE vehicles:
limited range. By limited range we mean that EVs could only travel on the order
of 50 miles or so on a single charge, and that only under good conditions
(lead-acid batteries lose energy capacity when they become cold, so in cold
weather the range of a vehicle could be reduced by as much as 50% or even
more). Also, recharging takes hours. ICE vehicles can go much farther on a
tankful of gas and could be quickly refueled. Now, urban air quality issues,
coupled with a rising awareness of the problems associated with the world’s
(and particularly America’s) appetite for oil, have created interest in EVs.
Power natural philosophy have revolutionized motor drives, transportation inside the realm of chance electrical drive trains with very high performance, and therefore the motors themselves are improved, providing higher responsibleness and better performance with
reduced cost. Unfortunately, the weak link in the chain remains —
electrochemical batteries. There are some new battery chemistries floating
around that offer good promise in terms of range, but none has the desired
combination of three features: fast charging/discharging (high power density),
large storage capacity (high energy density), and low cost. Traditional
lead-acid batteries have been improved some over the years, but their energy
and power densities remain disappointingly low, particularly when compared with
gasoline.
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