Latest Technology In Car Batteries
Car batteries are an essential part of vehicles. These batteries provide power to run a car smoothly. There are various latest technologies you should know about if you are looking for a new car battery. These include lithium vanadium oxide, sodium-sulfur, and ultra-fast carbon electrodes. Let’s look at some of them. When buying new batteries from reliable car battery suppliers in Dubai, you should be aware of these technologies.
Sodium-sulfur:
Sodium-sulfur technology in car battery design uses cheap and abundant materials, such as sodium, to produce high-quality, long-lasting batteries. The downside of this technology is that it is prone to thermal self-discharge, which can severely damage the cell. It also suffers from a limited number of freeze-thaw cycles, as the mechanical stress caused by solidifying liquid active materials limits the number of cycles it can withstand.
Sodium-sulfur technology was developed in the 1960s. Today, about 270 MW of Na-S batteries are installed worldwide, the largest being a 34 MW, 245 MWh wind stabilization unit.
Lithium vanadium oxide:
Vanadium is a widely available element that has been added to various lithium-based car battery technologies. This new material allows for more efficient energy storage and can provide increased power and torque. It is also easier to recycle. The latest battery technology is also safer and more environmentally friendly.
Ultra-Fast Carbon Electrode:
The ultra-fast carbon electrode is a promising new material that will increase car batteries’ capacity by as much as three times and significantly reduce charging time. The material also allows for easy recycling and can reduce the CO2 footprint of batteries. Its development is set to make car batteries more efficient, with a potential range of up to 1,000 kilometers. The technology could also cut charging time to as little as five minutes for an 80 percent charge.
This new technology is based on the development of vertically aligned carbon nanotubes. The company claims that this new material can improve the capacity of batteries by two or three times and reduce charging time by up to 50%. It is also environmentally friendly and recyclable, reducing the battery’s CO2 footprint by 60%.
