Automotive Lead Acid Batteries Gain an Overhaul

Key improvements targeted at expanding the capabilities of an automotive lead acid battery

The automotive lead acid battery market is undergoing notable improvements well-aligned with the emerging market trends. The promising vehicle sales witnessed worldwide along with the increasing penetration of electric and hybrid vehicles has influenced the growth of the automotive components landscape. This has resulted in a positive scenario for the companies operating in the automotive lead acid battery market. The continual developments made across the automotive sector and the advancements in automobiles are resulting in innovations in the automotive components landscape as auto components play a major role in the functioning of vehicles. Although in function for years, the automotive lead acid battery has fallen behind competing technologies, especially lithium-ion batteries that have captured a massive part of the market. Owing to this scenario, a number of actions are centered on improving the capabilities of an automotive lead acid battery.

Boosting Potential of Conventional Batteries with Implementation of Cutting-edge Technologies

As manufacturers are focused on improving automotive lead acid batteries, the implementation of next-gen technologies is one of the best possible alternatives. After several decades of functioning, the automotive lead acid batteries have now gained enhancements that aim at entering the next era of advanced automotive batteries.

The Department of Energy’s Argonne National Laboratory entered in a contract with 14 members of the Advanced Lead Acid Battery Consortium to make use of the advanced X-ray technology to understand if they could boost the potential of lead batteries. The Argonne researchers are working to make lead acid batteries more pleasing for the power grid and automotive industry. The technology would allow researchers to understand the processes of the battery, post which they would initiate the analysis of how various additives could enhance lead battery performance.

Efforts to Power Next-Gen Hybrid Electric Vehicles Taking Shape

Rising number of electrified powertrains are expected to fuel new innovations in the automotive lead acid battery market. A number of these hybrid and electric vehicles depend on high-voltage electric systems compared to the ones that standard lead acid batteries could offer. Moreover, automakers are opting for solutions that are more cost-effective compared to lithium batteries.

Gridtential, a new company has developed a technology which would allow automotive manufacturers to utilize cost-effective batteries for powering advancements in electrified powertrains, eliminating the need to use full hybrid with nickel-metal hybrid or lithium batteries. The company’s silicon-wafer lead acid battery utilizes bi-polar technology which is claimed to increase charge rates and power output in comparison with conventional lead acid or lithium batteries. Furthermore, this battery is one-third smaller in size and lighter than the standard lead acid batteries.

Key Replacements Result in Performance Improvements

The automakers’ haste to offer high-performance is one of the key driving factors for the automotive lead acid battery market. Battery makers are keen on achieving success regarding performance by making notable changes.

Tydrolyte LLC, for instance, announced the introduction of its patent-pending electrolyte solution for stationary, motive, and automotive storage lead acid battery manufacturers. Tydrolyte electrolyte is a drop-in, less toxic replacement for sulfuric acid in lead batteries. The main benefits include higher charge acceptance, lower charge resistance, enhanced round trip efficiency, and others.

Similar developments made in the automotive lead acid battery market along with the information pertaining to key innovation and growth driving factors is compiled in a detailed market study. Click here to know more.

Leave a Reply

Your email address will not be published. Required fields are marked *