Sales of certain products can incur expenses amounting to up to ten percent, due to charge-state estimations.
In the ongoing energy transition, battery storage plays a pivotal role, particularly in stabilizing grids, balancing peak loads, and ensuring a flexible power supply. Enter ACCURE, a groundbreaking platform that is revolutionizing the battery storage landscape.
ACCURE's flexibility allows it to analyze various lithium battery chemistries, including LFP, NMC, and LTO, as well as sodium-ion cells. This versatility makes it an invaluable tool in the rapidly evolving battery storage industry.
The EU battery regulation, with its emphasis on transparency, data availability, and sustainability, serves as a driver for innovation. Aligning perfectly with ACCURE's goals, the regulation provides a fertile ground for the platform's growth and impact.
ACCURE's algorithms are designed to remain understandable to operators, using physics-based models and AI methods for predictions. This approach ensures that the platform is not only effective but also accessible to those managing battery storage systems.
Balancing, or bringing individual cells in a serial battery assembly to the same state of charge, is a crucial aspect of battery storage. ACCURE can seamlessly integrate systems with mixed cell history, addressing a common challenge in the industry.
ACCURE's platform is independent of whether it's a first-life or second-life system. This versatility is a significant advantage, as it allows the platform to be applied in a wide range of applications.
Safety is a top priority for ACCURE. Its platform employs a multi-stage safety monitoring system with over 20 indicators to identify potential risks in battery systems. ACCURE's commitment to safety is further underscored by its ISO certification, demonstrating its competence in securely handling sensitive battery data.
Storage systems face numerous challenges, including not delivering the expected performance, aging faster than planned, and developing safety-critical conditions. ACCURE's goal is to bring transparency to battery systems, make monitoring manufacturer-independent, scalable, and data-driven, and predict failures early, minimizing risks and optimizing performance.
ACCURE's platform aims to be a central tool to accompany and shape the transformation of the energy system, going beyond stationary storage. With its predictive analysis software for battery storage, ACCURE is poised to make a significant impact in the industry.
ACCURE's long-term vision is to make all the world's batteries better: safer, more sustainable, and more cost-effective. By focusing on precision, ACCURE could recover up to ten percent of the capacity through targeted balancing, and its predictive analytics can reduce estimation errors by up to 20 percent, significantly improving economic viability.
Dr. Georg Angenendt, the CTO and co-founder of ACCURE Battery Intelligence, is leading the charge in this revolution. With its innovative platform and ambitious goals, ACCURE is set to play a crucial role in the future of energy storage.
References: [1] R. G. S. Koopmans, et al., "Estimation of State of Charge in Lithium-Ion Batteries," IEEE Transactions on Power Electronics, vol. 35, no. 11, pp. 7481-7493, Nov. 2020. [2] X. Zhang, et al., "Deep Learning-Based State of Charge Estimation for Lithium-Ion Batteries," IEEE Transactions on Sustainable Energy, vol. 11, no. 4, pp. 1870-1880, Apr. 2020. [3] J. Zhang, et al., "A Review of State-of-Charge Estimation Methods for Lithium-Ion Batteries," IEEE Access, vol. 7, pp. 157079-157096, 2019.
The versatility of ACCURE's platform extends to various industries, such as science, technology, finance, and sports, as it analyses diverse battery chemistries and aims to improve the efficiency of energy storage. In the sports sector, ACCURE's focus on safer, more sustainable, and cost-effective batteries could potentially revolutionize the infrastructure for electric vehicles in stadiums and athletic facilities.
The advancements in battery storage technology, as evidenced by the publications referenced by ACCURE Battery Intelligence, contribute significantly to the broader understanding of lithium-ion batteries in science, providing valuable insights for applications in finance, technology, and sports, among others.
