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The Brazilian government widely employs energy storage technology. The networking of various sectors and industries within the energy sector is also made possible by energy storage technology.
Here, the emphasis is on electricity, heating, transportation, and industry, all of which are taken into account and optimised collectively.
The nation needs storage solutions that enhance grid stability and supply security to combat these variations. Therefore, accomplishing energy and climate policy goals depends heavily on the effective utilisation of energy storage technology.
However, Brazil is not using these technologies to their full potential, and the necessary conditions have not yet been satisfied.
The Brazil Energy Storage Market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
Transmission system operator (TSO) ISA CTEEP in Brazil has launched a 30 MW battery energy storage system.
Although the location was not made clear, it was stated that the BESS would be discharged to assist the power network at times of high demand, hence enhancing service security and dependability.
The system has a 60MWh capacity and a two-hour discharge generation, according to a press statement. As a member of the ISA Group, which operates in other LATAM nations, ISA CTEEP transmits over 30% of all the power produced in Brazil and is present in 17 of the country’s 26 states.
This initiative has been a terrific source of learning, and they think that because of its pioneering nature, it will serve as a fantastic laboratory for the industry and the other ISA companies. For ISA, adapting the current network and maximising the use of the capacity already available is one of the major difficulties of the energy transition.
In this regard, batteries serve as an illustration of the increasingly adaptable and intelligent systems made possible by technology and innovation while prioritising dependability and durability.
The project looks to have a similar use case to the so-called “Grid Boosters” that several of Germany’s TSOs have started deploying, including one that system integrator Fluence recently stated it would deploy
.Brazil is a sizable market, however despite being a pioneer in testing alternative battery chemistries as Energy-Storage, there haven’t been many announcements regarding battery energy storage.
Vale’s system, which will include the first Tesla Megapacks deployed in Brazil, will be owned and run by MicroPower Comerc.
In order to compete in energy barters, the Brazilian government plans to incorporate batteries and various sorts of energy stockpiling.
Working Brazil’s power grid has gotten more complex and requires greater agility as energy sources with unpredictable results, like wind and solar energy, have gained prominence in the country’s structure.
When the yield from sustainable sources is smaller, the batteries would help to balance out the changeability of the sustainable age. Additionally, it would help bring clean energy to the Amazon region, where many people in disconnected networks rely on diesel generators.
It also considers how the “capacity” item will be remembered for the sale, noting that one idea is to connect batteries with sustainable plants so that they can draw energy from them.
Vale will save money by capping the significant demand costs that large electricity consumers in the state face during peak hours as a result of its use for industrial “peak shaving.” The project represents an important development for Brazil’s power sector and will be the country’s largest battery energy storage system.
Brazil is a leader in sustainable energy and has approximately 20GW of installed wind and solar power, but because of high import taxes and a lack of supportive policies, its energy storage infrastructure is practically nonexistent.
When demand is low, the system will charge, and when demand is high, it will discharge. The effort by Vale fits in with a global trend of miners seeking challenging decarbonization targets and an extraordinary increase in the purchase of sustainable energy.
The company’s headquarters is in the industrial area of Jaraguá do Sul, state of Santa Catarina, where the investments will be made.
WEG is dedicated to accelerating this business in Brazil as well as in the United States as a supplier for the battery energy storage (BESS) sector.
The two stages of WEG’s investment and expansion plan are as follows: first, the immediate expansion of the current manufacturing building; and second, the completion of the new battery pack factory in the first quarter.
Following WEG’s modular construction model, which enables a gradual and continuous increase in production capacity to meet the company’s expansion needs in the coming years, the built area available for the manufacture of battery packs will be approximately 6,000 square meters with these investments.
The project will rely on automation, digitization, and industry 4.0 solutions offered by WEG and is anticipated to create around 140 new employment.