Latest Technological Advancement in Tubular Batteries for Inverter

Commonly used for inverter batteries, tubular technology is an innovation that delivers extended durability and enhanced performance. In terms of energy storage and efficiency, Tubular Batteries for Inverters have been a preferred choice of consumers.

Tubular batteries have become the industry leaders in the rapidly changing field of energy storage systems because they provide a desirable balance of longevity, performance, and environmental sustainability. India is leading the way in defining the future of tubular battery innovation and recycling potential as it sets itself for exponential development in the adoption of renewable energy and energy storage demand.

Some of the latest advancements include :

1. Improved Tubular Design: Manufacturers are constantly refining the design of tubular batteries to enhance their performance and longevity. This includes changes to the tubular plates, separators, and overall construction to improve efficiency and durability. The improved tubular design often incorporates stronger and more robust materials, making the battery more resistant to physical damage and environmental factors compared to traditional battery designs.

2. Advanced Active Material: Tubular batteries, made of high-density lead oxide paste, are unique due to their advanced active material. This material enhances material utilization and prevents shedding, ensuring superior performance and durability. These batteries offer higher capacity, efficiency, and cycle life, making them ideal for deep-cycle applications like inverters, providing reliable backup power.

3. Enhanced Grid Alloy: Grid alloys are essential in maintaining tubular battery structural integrity. They provide mechanical support to active materials, ensuring durability during charge-discharge cycles. High-quality grid alloys resist corrosion, extending battery life. In tubular batteries, these alloys are crucial for structural stability, ensuring reliable performance over the battery’s lifespan.

4. Improved Electrolyte Formulations: The electrolyte in tubular batteries has also seen improvements. Advanced formulations offer better conductivity, reduced self-discharge rates, and improved resistance to stratification, enhancing overall battery performance.

5. Increased Cycle Life: Through the use of better materials and design, modern tubular batteries offer significantly increased cycle life compared to older models. This implies that they won’t significantly deteriorate after experiencing additional charge-discharge cycles.

6. Maintenance-Free Design: Some newer tubular batteries are designed to be maintenance-free, eliminating the need for regular topping up of electrolyte or other maintenance tasks.

7.Enhanced Safety Features: Manufacturers are incorporating advanced safety features into tubular batteries, such as improved venting mechanisms and short-circuit protection, to enhance user safety and protect the battery from damage.

Fuze Tubular Batteries for Inverter stand out for their latest technological advancements tailored for inverter use. With an innovative tubular design, they offer enhanced durability and efficiency, ensuring long-lasting performance even in challenging conditions. The advanced active material and grid alloy improve capacity retention and cycle life, providing reliable power backup. These features make Fuze tubular batteries a compelling choice for those seeking a reliable, efficient, and technologically advanced solution for their inverter needs. Visit the official website https://fuzebatteries.com/ for a better review before selecting any random battery.

Construction of Lead Acid Battery

A device which stores chemical energy and converts it into electrical energy is called a battery. It is a power source consisting of one or more electrochemical cells connected externally to supply power whenever needed. A Battery can be classified as

1.Primary Battery 

2.Secondary Battery

Secondary batteries are generally bigger in size with a heavy construction and therefore, they store a high amount of energy. These batteries are commonly used for high power supply, in automobiles and inverters. They are also used in the power stations and substations because they have higher cell voltage and lower cost. Fuze is a leading battery manufacturer in India, offering durable batteries with unmatched performance and reliability. 

What is Lead Acid Battery?

The lead acid battery uses a sponge lead and lead peroxide for creating a chemical reaction to convert the chemical energy into electrical power. When the chemical reaction is reversed, it results in recharging the battery. Hence, they are also known as rechargeable batteries.

Understanding the Construction of Lead Acid battery

A Lead Acid battery consists of various parts for the construction and smooth working of it. Let’s understand them  in detail – 

1. Container – The container is one of the main parts in a Lead acid battery. It is mostly made of strong plastic or at times with metal.

There is another part called prism, placed to support the two plates and also helps to prevent short circuit. The material of the container should be resistant to the sulphuric acid. They should not bend and should not form impurities as it can lead to electrolyte damage. 

2. Plates – Another important part of a battery are plates which are all constructed in a different way in the form of a grid. It is made up of lead and active components. The grid of plates is very essential for conducting and passing the electricity equally on all the active material, otherwise, the active material will start to loosen and will fall out. 

The grid is made up of lead and antimony. They are made up of the same design. Only difference is that the grid of the negative plate is made lighter because they are not as essential for the conduction of current. 

3. Active component – It is a component which actively takes part during the chemical reaction in the battery during charging and discharging. The following are the active components are:

  • Lead Peroxide – It is the positive active material.
  • Sponge Lead – It is the negative active material. 
  • Dilute sulphuric Acid – It is used as an electrolyte. 

4. Separators – They are thin sheets of non-conducting materials that are used to separate the negative and positive to insulate them from each other. They are made up of porous rubber, glass fiber, porous cellophane, nylon, or polyolefin film,

5. Battery Terminals – A battery has two terminals, a positive and a negative. 

Almost everything works on a battery nowadays. Lead acid battery is one of the oldest types of battery ever created. Its practical applications are used in a variety of sectors, from home inverters, to the industrial equipment, and in the power stations. Lead acid batteries demand is still increasing everyday even after the introduction and a heavy competition from the Lithium ion batteries as they are easier to handle. 

Fuze is one of the trusted Tubular Battery Manufacturers in Kerala and has a wide range of batteries with prices affordable to everyone. Our batteries are more efficient and require less maintenance. Check out our recommended batteries that are well suited for your pockets.