By submitting this form, you are agreeing to the Terms of Use and Privacy Policy.
Coming Soon
Batteries made of sodium-nickel chloride, often known as ZEBRA batteries, are high-temperature devices that operate normally between 270°C and 350°C. The sodium and nickel chloride electrodes in its cell development are separated by a beta-alumina electrolyte, which can conduct sodium ions but not electrons. This illustrates the performance, manufacturing process, and applications of sodium-nickel chloride batteries.
These batteries have a high energy density, are small and light, react quickly, and can withstand a full discharge. Its drawbacks include self-discharge and a hefty price tag.
The technology has primarily been used in submarines and electric cars as of recent times. Although this electrochemistry has undergone extensive development and been given the go-ahead for usage in electric vehicles and submarines, it is still in its infancy in applications related to power utilities.
A couple of these devices’ designers foresee amazing possibilities in relation to intermittent sustainable power source. Batteries made of sodium-nickel chloride are another type of “high-temperature” battery.
With the trade name Zebra, they are currently made by just one manufacturer. They function at temperatures between 270 and 350 °C and have two things in common with NaS batteries: liquid sodium and -Al2O3 ceramic. A Zebra cell is made up of a solid positive electrode made of nickel and nickel chloride and a negative liquid sodium electrode in its charged condition.
The electrodes are physically separated from one another by an Al2O3 ceramic tube, which also ensures sodium ion transfer. The positive electrode is flooded with molten chloroaluminate, which is an equimolar eutectic mixture of sodium chloride and aluminium tri chloride, to ensure contact between the solid positive electrode and the ceramic electrolyte.NiCl is reduced to metallic Ni upon discharge, whereas sodium is oxidised into Na+ ions, creating sodium chloride.
The Global Sodium-nickel chloride battery market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
The Durathon E4815 battery is a sodium-nickel chloride battery that has a wide working temperature range, high levels of safety, a long service life, low maintenance costs, good efficiency, and a variety of uses.
The technology was created by General Electric Company and successfully commercialised. In 25 different nations around the world, the Durathon battery is utilised in telecommunication, energy storage systems, and vehicles.
Durathon batteries, which were developed by the Group and General Electric Corporation, are being used as energy storage for telecommunications stations, peak management, and PV and wind energy. To increase the use of Durathon batteries more broadly and on a bigger scale, the two parties pooled their respective industrial and technological capabilities.