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We have recognized there is no commercial GDL product targeted to the electrochemical CO2 reduction field. Fuel Cell Store is proud to offer this developmental GDL. This is a product with improvements based on the comments received by researchers across the globe. This GDL is comprised of a hybrid microporous layer, where the surface cracks of the original 28 BC are post-filled with a mixture of carbon nanoparticles and FEPD 121.
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Huge 2.6 billion green hydrogen project planned for Europe
"Hydrogen, which has a diverse range of applications and can be deployed in a wide range of industries, can be produced in a number of ways.
One method includes using electrolysis, with an electric current splitting water into oxygen and hydrogen. If the electricity used in this process comes from a renewable source such as wind or solar then some call it green or renewable hydrogen."
📸 CNBC
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Rolls Royce to develop powerful new hydrogen fuel cell module
"The hydrogen fuel cell module is sleek and modern looking with an H-shaped front panel. The 150kW power output it can achieve would mean that it would be capable of powering as many as ten homes. That said, the modules aren’t meant for residential use. Instead, they are being developed for use as clean backup power for large data centers. The modules can be used on their own or can be connected so that they can function together as clean energy power plants with megawatt output levels."
📸 Hydrogen Fuel News
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Check out our latest post!
The Interaction of Organic and Biochemical Substances on Ion Exchange Materials
By: Dr. Colleen Spiegel
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"Coordination and hydrogen bonds can be formed between different units in the material, contributing to the overall strength of ion interactions in ionic exchange materials. In studies related to removing organic compounds from water, materials with a low number of charged groups are better at eliminating organics than ion exchange materials with many ion-exchange groups. This is due to the sorption of larger organic ions influenced by hydrogen and nonionic exchange interactions. In this case, the contribution of the weak forces overwhelms the contribution of the ion exchange itself. The van der Waals forces are responsible for the sorption in many large bio-organic molecules based upon studies using infrared spectroscopy. "
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