The contribution “worst battery in the world” produces green hydrogen in Germany first appeared at the online magazine Basic Thinking. You can start the day well every morning via our newsletter update.
The German start-up fabric2 wants to enable flexible and safe energy supply. The idea: a combined system of battery and electrolysis, which can safely store both excess renewable energy as well as produce green hydrogen as required.
What sounds like a technical paradox at first could be a groundbreaking innovation from Germany. Because the zinc intermediate step electrolyser (ZZE) of fabric2 is intended to combine the advantages of battery and electrolysis in a system.
According to company, he stores excess renewable energies in the form of zinc and produces green hydrogen as required. This new technology could also enable flexible and safe energy supply.
“Worst battery in the world” produces green hydrogen
The Company fabric2 Was founded in 2020 and is committed to “making the world more sustainable, securing the future of companies, as well as that of the next generations”.
This is implemented with a process based on electrolysis. In this way, electricity from renewable energies can be saved safely in just one system. The release of green hydrogen as a climate -friendly energy source is also available everywhere.
André Schmitt, Electrical Engineer at fabric2, denotes the development compared to the Rbb as the “worst battery in the world”. Because no matter how fluctuating the feed-in of wind and solar power is- the battery releases its energy evenly and slowly. According to the founders, this creates highly efficient green hydrogen.
The aim is to “decarbonize the Uckermark”, as Vehrührer Dajana Zirzlaff explains. The company wants to convert its development from the laboratory into practice and thus also into the industrial environment. Fabric2 wanted to feed the green hydrogen produced directly into the hydrogen core network.
This is how the electrolyseur system works
The electrolyser system from fabric2 stores electrical energy with high performance when charging. For example, this can come from solar or wind turbines. Since loading, saving and unloading runs independently of one another, the system can be flexibly adapted to different requirements.
In the system itself, the energy is safely saved in the form of solid zinc. This is the eponymous zinc intermediate step. The energy is therefore not stored in gas form in the system, which, according to the company, means “additional security”.
When unloading, the energy stored in the zinc layer is released in the form of hydrogen. The zinc dissolves in the electrolytes, whereupon hydrogen is produced on the gas electrode. Electricity and warmth are also created as by -products.
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The contribution “worst battery in the world” produces green hydrogen in Germany first appeared on basic thinking. Follow us too Google News and Flipboard Or subscribe to our update newsletter.
As a Tech Industry expert, I find the concept of using the “Worst battery in the world” to produce green hydrogen in Germany to be both innovative and intriguing. While a battery that is considered the worst in terms of its energy storage capabilities may seem counterintuitive for hydrogen production, it is important to consider the potential benefits of this approach.
Green hydrogen production is a key aspect of transitioning to a more sustainable energy system, as it offers a clean and renewable alternative to traditional fossil fuels. By utilizing a battery with low energy storage capacity for hydrogen production, there may be a unique opportunity to repurpose existing technology in a creative and efficient manner.
Furthermore, Germany’s commitment to green energy and reducing carbon emissions makes this project particularly relevant and timely. By leveraging unconventional solutions and thinking outside the box, the tech industry can play a crucial role in driving innovation and progress towards a more sustainable future.
Overall, while the idea of using the “Worst battery in the world” for green hydrogen production may seem unconventional, it demonstrates the potential for creative solutions to address pressing environmental challenges. I look forward to seeing how this project unfolds and its potential impact on the broader energy industry.
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