We design and develop electrical storage systems with a focus on safety, dependability, efficiency, and lifetime. We also consider challenges such as digitalisation and cybersecurity. Additionally, we develop customised solutions for integrating these systems into applications and managing them alongside other energy resources. Our approach prioritises environmental criteria, energy efficiency, flexibility, robustness, resilience, and profitability.
We design, develop and integrate storage systems from an integral point of view, including all the elements that make up the storage system: cells (starting from different types of commercial cells), BMS, electrical design, cooling system, compression elements and thermal runaway mitigation.
We conduct electrical, thermal, and lifetime characterisation of storage systems. Additionally, we develop advanced algorithms based on artificial intelligence to estimate their state of charge (SOC), health (SOH), or lifetime remaining (RUL). This provides us with reliable knowledge and enables us to optimally size and manage the system.
We are specialists in the development of customised sizing tools that assess the techno-economic feasibility of integrating energy storage systems in renewable and mobility applications. We also define and implement the HW / SW architecture of energy management platforms (EMS), as well as the advanced algorithms that optimally monitor and manage the energy resources (with a focus on storage systems) of these applications.
Our pioneering and high-level facilities offer the essential tools to carry out tests and validations of different technologies and thus address challenges such as sustainability, energy efficiency and cybersecurity.
By combining expertise in storage systems and their target sectors, such as renewables and electromobility, we offer customised solutions for developing, integrating, and optimally managing these systems in various applications.