Electric Car Batteries | All you need to know – Iberdrola

SEE INFOGRAPHIC: Global growth of the electric vehicle market [PDF]

As well as protecting the environment, electric vehicles have other advantages over combustion vehicles, making them extremely attractive to buyers:

Fewer breakdowns

Without a traditional engine, gear box or clutch, faults of this type are massively reduced.

Easy maintenance

With simpler mechanics than combustion vehicles, maintenance is simpler.

Lower consumption

Charged in a garage overnight, it costs between fifty cents and one euro to travel 100 kilometres (Km), far more economical than a traditional vehicle.

Fewer restrictions

Pollution has led governments to impose stringent conditions on vehicles in city centres. These do not apply to electric vehicles, which can drive about freely.

Tax benefits

In many countries, electric cars are given preferential treatment over vehicles with combustion engines, such as no registration charge, no road tax, etc.

WHAT IS AN ELECTRIC CAR BATTERY AND HOW DOES IT WORK?

An electric car battery is an energy accumulator that stores electricity for transmission to an alternating or continuous current engine. However, its importance is far greater than this. The battery is what makes these vehicles sustainable, what releases it from its dependence on fossil fuels. Batteries are at the heart of buyers’ concerns: the car’s range — the distance that a vehicle can travel before needing a charge —,its charging time and its price.

The battery world has experienced an unprecedented revolution in the last decade. As a result, the average range of electric cars has increased considerably, terminando así con la denominada range anxiety —buyers’ fear of finding themselves stuck on the roadside due to limited range — which had been holding back sales. However, range is not the only area of batteries where progress has been made: charging times have also been improved —with rapid charging as fast as ten minutes — improving their efficiency and their life cycle.

CHARACTERISTICS OF ELECTRIC CAR BATTERIES

Electric vehicle batteries are special in several ways. The main ones include:

Density

The amount of energy that a battery is able to store in relation to its weight. The greater the density, the greater the storage capacity and the longer the vehicle range. It is expressed in Wh/kg (watt-hours per kilogram).

Voltage

The power that the battery can supply per kilogram of weight of the battery, which is therefore expressed as W/kg (Watts per kg). The greater the power, the greater the performance of the vehicle.

Efficiency

The performance of the battery, i.e. the percentage of energy it is capable of delivering in relation to the energy introduced into the charging process.

Life Cycle

The number of times that a battery can be charged and drained before needing replacement, since they lose capacity. The more cycles the battery has, the longer it will last.

Charging speed

Charging times. There are three types of charge, with times that vary depending on the model of the car: rapid (10-40 minutes), fast (1.5-3 hours), and slow (5-8).

HOW TO EXTEND THE LIFE CYCLE OF AN ELECTRIC CAR BATTERY

According to the study conducted by Geotab in 2019, electric cars lose an average of 2.3 % of their range every year. These are the main steps for taking good care of an electric car battery:

• Avoid fully charging and draining

  the battery, in the same way as mobile phones and laptop computers.

• Charge your car

  using smart chargers and, where possible, with a slow charger — rapid charging shortens the battery life by 1 % if used frequently —.

• Electric cars are best in urban environments.

  Accelerate gently and do not park in the sun to avoid triggering the thermal management system.

• The braking system helps to charge the battery,

  so the more you use the brakes the longer range it will have.

THE LATEST IN BATTERIES FOR ELECTRIC CARS

Batteries are the subject of constant innovation. Recently, Swiss startup Innolith AG announced that it had developed a denser battery without increasing the weight or size, capable of storing more energy and increasing the range to up to 1,000 km. The secret: lithium batteries with non-flammable electrolytes. A group of researchers at the University of Melbourne has announced the development of a lithium and sulphur battery with the same range.

Solid-state batteries based on electrolytes may also be positioned at the forefront of the sector because they are cheaper, lighter and smaller, increase energy density and do not need safety systems to prevent heating, with the first cars with these new batteries expected to be introduced in the next two years. Other sources point to batteries with silicon anodes can store up to ten times more energy than a lithium battery, and graphene-based anode materials can increase battery capacity and drastically reduce charging times, with an energy density and useful life twice that of lithium.

In addition, due to the current lithium problem, other solutions are also being worked on, such as the use of sodium as a substitute for lithium. Sodium is found in more places and in greater quantities, which helps to avoid the current high price of lithium and also helps to avoid a possible lack of reserves. The latest advances indicate that industrialisation will begin in 2022, although for the moment it seems unlikely that they will be used in private vehicles due to their size and inability to accumulate the same amount of energy as lithium ones.