thyssenkrupp nucera offers world-leading technologies for high-efficiency electrolysis plants. The company has extensive in-depth knowledge in the engineering, procurement, and construction of electrochemical plants and a strong track record of more than 600 projects with a total rating of over 10 gigawatts already successfully installed. With its water electrolysis technology to produce green hydrogen, the company offers an innovative solution on an industrial scale for green value chains and an industry fueled by clean energy - a major step towards a climate-neutrality.
thyssenkrupp nucera successfully made an IPO in July and is a member of the SDAX of the Frankfurt Stock Exchange since September 2023.
Nice to see that IRA supports "organizational ramp-up" of green energy market demand in US as well as the reduction of hydrogen costs by 80%, 1USD/Kg --> direct impact to "maximize growth and profitability" for TKN. For the anticipated 9GW electrolyzer plant by 2025, I wish a "resilient Operation" focusing on "standardization and automation". These might support to bring your TCO and production costs down, enabling "cost-efficient AWE technology", ultimately speeding-scaling "leading Competition". Further more, for the agenda 2030, hope that EU can learn even more how the US is stimulating the market, having IRA as a wake-up call to EU. This will mitigate the risks in having projects and manufacturing facilities moving from EU to US. The Government support is essential to keep EU attractive and industry here too, especially taking into account the timeline around 6-8 years from FID to production. In a holistic approach, the major question might be how to secure supply chain and orchestrate funding for the small/mid-size suppliers which needs upfront capacity expansion, since everybody has to ramp-up and scale up in the same time. Let's "speed and scale"! Congrats TKN Team!
Hi, you may not spell out that, a given stack is handicapped (not working) with neighbor best within the module. i.e., not all the stacks in a given module are identical, and dissimilar performance to take a load share variations all the way from 10-100% (shown a depiction at 3.52 min). Please phrase something else reasonings in introducing APC with load balancer. The crux of the story is that, the I-V (current-voltage) performances of each and every cell in a stack and stacks in modules are non-uniform and they are unique. What APC does is that, it identifies and utilize their individual max energy efficiency conditions. Ofcourse, Thyssenkrupp Nucera is a leader in this tech.
Let me help you out: #1 the first thing you need to know is that H20 is two molecules you want to separate, #2 you should recognize that they are magnetically bond to each other. So this is real simple and you will have more then you can handle!! Build your basic water filled glass with the two electrodes. Now put in a very small amount of DC power and last but not least, THIS IS THE BIG DIF: Vibrate the center field of a magnet into the mix. I refer to it as the "B" field. The molecules were magnetically attached now you have to provided the dividing energy to divorce the two fields!! JUST LIKE A MAGNET DEVIDES N & S POLES IT now can be used to separate the two molecules if tuned to the correct vibrative frequency... Do not Oscillate it would disrupt the magnetic field because it contains the "B" field. Vibrate only!!
Klasse Signal vom Nucera! Freue mich auf die Energiewende mit Wasserstoff getrieben durch deutsche Hersteller. Das ist die Chance wieder die deutsche Industrie an die Spitze der Welt zu positionieren. Für mich geht Zukunft nur mit Wasserstoff 💪
+gopalbijarniyan Our headquarters is located in Dortmund, Germany. In addition to that we have offices in Houston (US), Milan (Italy), Riyadh (Saudi Arabia), Okayama and Tokyo (Japan), Shanghai (China), and Perth (Australia). For more information, visit our website: thyssenkrupp-nucera.com/
+FrankFahrenheit ein paar Zahlen gibt's im Video 😉 Wenn du mehr wissen willst, schau doch einmal in unsere Broschüre: thyssenkrupp-nucera.com/de/gruener-wasserstoff/ unter power consumption. Da bekommst du eine Info zum Wirkungsgrad. 👍