Highly innovative technologies

Climate change and resource depletion play an elementary role for the future of humans on this planet due to their increasingly obvious presence. Regenerative energy generation that relieves the climate and the environment and its efficient use are among the dominant issues of our time. The implementation of alternative drives and energy sources is picking up speed, particularly in the mobility sector, but also in industry. Despite the right direction, negative reports about possible teething problems of these systems often dominate the news. It is often a question of insufficient efficiency, high costs, enormous consumption of resources, environmental damage, insufficient safety or insufficient reliability.

At E-Stream, we believe that with E-Stream technology we have taken not just one, but many more steps in the right direction:

efficiency

With the revolutionary packaging process, E-Stream achieves the greatest possible energy density and thus performance with its round cells in the smallest space with the lowest possible weight. The innovative composite and modular system enables the systems to be flexibly adapted to the required capacity and thus prevents the inefficient use of energy storage space. The E-Stream technology enables ultra-fast charging, so that the energy storage can be charged within the shortest possible time. The efficiency and performance of the technology on which the concept is based have been confirmed and certified by accredited and independent institutes.

Costs

With the E-Stream technology you save in several ways. On the one hand, the energy efficiency of the storage systems saves costs, since maximum performance is obtained from minimum energy. The underlying packaging offers increased gravimetric and volumetric energy density when storing electricity of up to 220 watt hours per kilogram (Wh/kg) or up to 420 watt hours per liter (Wh/l). In addition, the complete replacement or new purchase of a storage system can be avoided due to the flexible scalability. Furthermore, the E-Stream technology enables the replacement of individual battery cell elements. This enormously reduces the use of resources and labor for maintenance and repairs, which is also a very important cost factor when using regenerative energy storage systems.

use of resources

Energy storage systems designed according to the E-Stream concept consume significantly fewer resources over the entire life cycle than current conventional energy storage solutions. Due to the flexibility in applicability, we achieve a sustainable use of resources. The E-Stream technology is suitable for high-performance mobile and long-term stable stationary as well as for portable and transportable applications.

environmental sustainability

With the E-Stream technology, "clean" energy, which was obtained from regenerative energy sources such as sunlight, wind and water power or geothermal energy, can be efficiently stored and used when required. The "second-life principle" and the resulting maximum service life of the components also minimizes the environmental impact of resource depletion. At the end of their life cycle, the individual components of our battery storage systems can be separated, used and recycled in the best possible way thanks to the non-destructive dismantling option, thus reducing the environmental pollution that is currently still frequently associated with this process.

Security & Reliability

The aspects of safety and reliability have played a crucial role in the development of the E-Stream technology. In order to ensure maximum resistance to danger and reliability for our customers, our battery cells are individually electrically secured and designed to be particularly shock and vibration resistant. In addition, due to the systemic design principle of individual components, continued operation is also possible if individual cells fail. The functionality can be easily and quickly restored by replacing the defective element. In addition, complete monitoring of safety-critical parameters is possible and the technology therefore offers a multi-stage safety concept. An example of this is the innovative thermal management of the E-Stream safety concept