Following Safety Concerns About Lead Acid Batteries, Customers in India, Middle East and Africa are Now Switching to Lithium-ion Batteries

Following Safety Concerns About Lead Acid Batteries, Customers in India, Middle East and Africa are Now Switching to Lithium-ion Batteries

The energy storage and conversion sector has been transformed by lithium-ion batteries. This is a move that has picked up with several safety concerns raised due to the use of lead-acid batteries. Many businesses, homeowners, societies, and manufacturers in Syria, Yemen, Nigeria, India, Nepal, Bangladesh, and more are switching to lithium-based battery storage solutions as their primary energy storage solution.

This revolution in the world of lithium ion based battery storage solutions is spearheaded by Kunwer Sachdev, often called the Lithium Man of India, for his pioneering work in this field. Kunwer also mentions an Indian startup in the energy storage solution field, Su-vastika, that has shaken up the lithium battery space with its wall-mounted lithium battery solutions. 

About Wall-mounted Lithium Battery

The move to wall-mount lithium batteries for all its products by Su-vastika under the mentorship of Kunwer Sachdev is revolutionary as now, for the first time ever, customers don’t have to deal with the issue of batteries taking up space on the floor or the destruction caused due to spillage, which is typical for a lead-acid based solution.  

Kunwer Sachdev is an entrepreneur, marketer, innovator, motivational speaker, thinker, and leader. He revolutionized the power backup sector in India with innovative and user-friendly products that made India-made inverters a household name not just in India but also in the Middle East, Africa, and Southeast Asian countries, including Bangladesh and Nepal. Due to his contributions to the inverter/UPS and solar sector, he is also referred to as ‘The Inverter Man of India’ and ‘The Solar Man of India.’

About Lithium-ion-based Energy Storage System

A lithium-ion-based energy storage system is a type of energy storage system that stores and provides electrical energy using lithium-ion batteries. The rechargeable lithium-ion batteries are constructed of lithium cobalt oxide or lithium iron phosphate and can be charged and discharged several times.

Energy storage systems based on lithium-ion batteries can be employed in a range of environments, including residential, commercial, and industrial. They can store energy generated by renewable sources like solar and wind and supply backup power during outages. They can also be found in electric vehicles, various modes of transportation, and portable electronic devices.

One or more lithium-ion batteries, a power inverter, and a battery management system, are commonly included in the system. The battery management system guarantees the battery’s safety and longevity, while the inverter converts DC power from the battery to AC power that the load may consume. Other components of the system include a charge controller, an AC/DC converter, and a communication interface.

Lithium-ion-based energy storage systems are becoming increasingly popular because of their high energy density, extended lifespan, and low maintenance needs. They are thought to be a more efficient, dependable, and cost-effective alternative to standard energy storage devices like lead-acid batteries.

Energy storage systems based on lithium-ion batteries have significant advantages over lead-acid inverters.

 

There are several advantages to using Lithium-ion battery-based energy storage systems over lead-acid batteries.

Higher energy density:  Lithium-ion batteries have a higher energy density than lead-acid batteries, which means they can store more energy in a smaller space.

Longer lifespan:  Lithium-ion batteries have a longer lifespan than lead-acid batteries, which means they can be used for a longer period of time before they need to be replaced.

Lower weight:  Lithium-ion batteries are lighter than lead-acid batteries, making them easier to transport and install.

Greater efficiency:  Lithium-ion batteries have a higher charge/discharge efficiency than lead-acid batteries, which means they lose less energy during charging and discharging.

No maintenance:  Lithium-ion batteries require no maintenance at all, and lead-acid batteries require a lot of maintenance, such as water topping and cleaning.

Pollution:  Tubular lead acid batteries are a source of lead pollution, and different types of gasses are released, which are harmful to people.

Capacity:  Lead acid batteries have a C20 capacity, and Lithium-ion batteries are C1 batteries, which makes a major difference in the capacity.

Wide operating temperature range:  Lithium-ion batteries can operate in a wide range of temperatures, which makes them more versatile than lead-acid batteries.

Overall, lithium-ion battery-based energy storage systems are thought to be more efficient, dependable, and cost-effective than lead-acid inverters.

Conclusion

Lithium-ion batteries are lighter than lead-acid batteries, have a better energy density, and last much longer. They also have a far lower self-discharge rate, which means they lose less energy during storage. Additionally, lithium-ion batteries offer a far higher power density than lead-acid batteries. This means that they can store the same amount of energy in a considerably smaller form factor, making them perfect for use in portable devices and vehicles.

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