السيارة الكهربائية - الطاقة الكهربائية .. الفيزياء

Electric Car - Electric Energy .. Physics

Electric Car

The atmosphere of the British Isles alone is filled every year with six million tons of carbon monoxide gas produced by burning fuel in car engines. The only way to get rid of this pollution is to replace internal combustion engines with electric engines. To this day, this replacement has not been achieved due to the difficulty of solving the issue of storing electrical energy. As the table on page 31 shows, one kilogram of oil can store four hundred times more energy than the energy stored in a battery that contains only one kilogram of lead. In other words, to obtain the energy contained in five gallons of oil (18 kg), it is necessary to use 7 tons (7200 kg of batteries). In return, no one can deny that the efficiency of electric motors is twice or more than the efficiency of oil-powered engines, but the weight of the batteries needed in the car to cover the same distance alone is enough to increase its weight to a large extent.

To solve this problem, current research has taken two different paths - improving the types of accumulators on the one hand, and developing workable fuel cells on the other hand. The difference between an accumulator and a fuel cell is that the former can store energy while the latter generates it. In fact, lead accumulators have been produced that have been greatly improved and are now capable of supplying a lightweight car with the energy that enables it to travel a distance of 30 miles at a maximum speed of 30 miles per hour. There is another type of battery that is beginning to show promising results. It was previously used to supply a test car with the energy it needs and it gave an efficiency that is five to seven times greater than that of a normal battery. There are more complex accumulators made of sodium-sulfur or lithium-chlorine cells. They are capable of storing an amount of energy per kilogram that is 15 times greater than the amount stored in normal accumulators, but at the same time they only work at a temperature of 300 degrees Celsius, which makes them practically unusable. The battery is fed with electrical energy during the charging process and stores it in the form of chemical energy, then returns it as electricity during the discharging process.

As for the fuel cell, it is fed with fuel and oxygen and converts chemical energy into electrical energy directly. The battery lives on electricity and does not need to be refilled with chemicals. As for the fuel cell, it does not live on chemicals and does not need to be charged at all.

Fuel cells are considered highly efficient converters that convert chemical energy into electrical energy (their efficiency is about 80%). Despite the strength of their specific energy compared to normal engines, they are large in size and require a large space. Perhaps the widespread use of aircraft was a reason for developing them so that they become suitable for use in land transportation.

(To the left) The fuel cell is zinc/air. (To the right) The fuel cell is hydrogen/oxygen.