🌍 𝗪𝗼𝗿𝗹𝗱 𝗛𝘆𝗱𝗿𝗼𝗴𝗲𝗻 𝗮𝗻𝗱 𝗙𝘂𝗲𝗹 𝗖𝗲𝗹𝗹 𝗗𝗮𝘆 Hydrogen is a vital pillar of the sustainable transformation of 𝗲𝗻𝗲𝗿𝗴𝘆 and 𝗺𝗼𝗯𝗶𝗹𝗶𝘁𝘆 𝘀𝘆𝘀𝘁𝗲𝗺𝘀. While battery-electric mobility with wind and solar is essential, some sectors are hard-to-abate: ▪️Heavy industry (steel, chemicals, refineries, fertilizer) ▪️Aviation and marine transport ▪️Heavy-duty and off-road mobility ⚡Challenges such as high production costs, infrastructure, and durability remain. Innovations like advanced electrolyzers, strategic renewable production, and digital twin technologies are paving the way for large-scale adoption. At AVL, we accelerate this transition with testing and validation across the entire spectrum From cell to complete system Ensuring efficiency, durability, and readiness for deployment. 🎥 Learn more from Juergen Rechberger, business unit leader, about hydrogen’s role in shaping our sustainable future. 👉 Watch the full video. #hydrogenday #fuelcell #electrolyzer #hydrogen #efuel

The 100MW electrolyser plant is expected to produce 15,000 tonnes of green hydrogen per year in Spain. #hydrogen #HydrogenNow #H2View

The hydrogen economy will not be built on one molecule alone. Clean hydrogen is versatile and moving it across continents is a challenge. Multiple trade forms are emerging, each with unique strengths. Ammonia leverages existing infrastructure. Liquid Hydrogen pushes technological boundaries. DRI creates instant green industrial products. The common thread? Each pathway converts renewable energy into a storable, tradable commodity, turning geographical advantages into strategic exports. The next step is scaling the most viable projects to bring down costs and de-risk investments. We are interested to hear: What partnership in the hydrogen sector has impressed you the most? #ECADINResearch #CleanHydrogen #EnergyTransition #GlobalTrade #HydrogenEconomy

Hydrogen is shaping up to be one of the most promising paths away from fossil fuels. A clean, renewable energy source that could transform how we power industries and everyday life. At ERIKS, we’re helping bridge that gap. Our engineered compounds are designed to withstand hydrogen’s toughest challenges, from extreme pressure to tiny molecular size, ensuring seals and gaskets stay reliable in demanding environments. By collaborating with manufacturers from the design stage, we accelerate innovation and make hydrogen technologies more practical and scalable. Curious how we’re shaping the hydrogen future? Explore our Hydrogen Solutions👉https://lnkd.in/ebPjEVN7 #Hydrogen #ERIKS #EnergyTransition #Innovation #SustainableFuture

The plant features 10MW of installed electrolyser capacity, producing up to 1,200 tonnes of green hydrogen per year. #hydrogen #HydrogenNow #H2View

The Engine of Green Hydrogen: Innovations in Electrolyzer Technology As the world shifts toward a decarbonized energy future, electrolyzer technology has emerged as the true engine of green hydrogen production. This core technology, which splits water into hydrogen and oxygen using electricity, is undergoing a rapid evolution. At Hydrogen IQ, we're keenly following the advancements that are making green hydrogen more affordable, efficient, and scalable for a wider range of applications. The industry is seeing significant innovations across all electrolyzer types: Improved Materials and Design: Manufacturers are developing thinner membranes and more efficient porous transport layers (PTLs). This reduces resistance and allows for faster ionic transport, boosting hydrogen production rates. The use of innovative, reduced-precious-metal coatings is also lowering the overall cost of the stacks, making the technology more economically viable. High-Efficiency Solid Oxide Electrolyzers (SOEC): Operating at high temperatures, SOEC technology can achieve higher electrical efficiency by using waste heat from industrial processes. This makes it an ideal choice for heavy industries like steel and chemical production, where waste heat is readily available. Modular and Scalable Systems: The trend is moving towards modular electrolyzer units that can be combined to form large-scale, gigawatt-capacity plants. This modularity allows for rapid, on-site installation and easier scaling of projects to meet growing demand. Industry Leaders Driving Innovation ITM Power: A leading UK-based company specializing in Proton Exchange Membrane (PEM) electrolyzers, known for high-quality, cost-efficient systems. Nel Hydrogen ASA: A long-standing player in the hydrogen industry, Nel provides a wide range of alkaline and PEM electrolyzer solutions for various applications. Siemens Energy: With a focus on large-scale PEM electrolysis technology, Siemens Energy is a major force in the European market, developing solutions for industrial-scale projects. Ceres Power: This company licenses its solid oxide technology, which is highly efficient and operates at high temperatures, to global partners for both fuel cells and electrolyzers. Cummins Inc.: Known for its power generation solutions, Cummins has expanded into hydrogen with its HyLYZER PEM electrolyzers, which have been deployed in large-scale projects around the world. These innovations are not just theoretical; they are being implemented in real-world projects, paving the way for a more sustainable and accessible hydrogen economy. For a deeper dive into the different types of electrolyzers and their pros and cons, this video provides a comprehensive overview for technical professionals. https://lnkd.in/dBC3Ehvm #HydrogenIQ #GreenHydrogen #ElectrolyzerTechnology #CleanEnergy #Sustainability #Innovation #EnergyTransition #PEM #SOEC

🌍 Ammonia, Blue Hydrogen & CCS: Building Blocks for a Lower-Carbon Industry The path to a low-carbon future depends on technologies that bridge today’s energy needs with tomorrow’s climate goals. Among these, blue hydrogen and ammonia production are emerging as key elements of the global energy transition. 🔗 Ammonia is an efficient hydrogen carrier, enabling long-distance transport and easier storage compared to pure hydrogen. When produced from natural gas with integrated carbon capture and storage (CCS), blue hydrogen offers a scalable route to lower-emission ammonia. 📊 Globally, CCS already captures around 50 million tonnes of CO₂ each year, and projects under development aim to expand this capacity several-fold by 2030 (IEA). Such infrastructure can help reduce the substantial emissions from today’s ammonia production while supporting existing industrial assets. ⚙️ Reliable process control is critical in these applications. SAMSON contributes deep process expertise to help plants achieve safe, efficient, and environmentally compliant production — making blue ammonia a practical link between conventional energy systems and a sustainable future. #Hydrogen #BlueHydrogen #Ammonia #CCS #CarbonCapture #EnergyTransition #Decarbonization #LowCarbonEconomy #SAMSON

‘World’s largest’ solid oxide electrolyser starts hydrogen production at Neste refinery. By Charlie Currie A solid oxide electrolyser has started producing hydrogen at Neste’s refinery in Rotterdam in a pilot project to validate the role of high-temperature hydrogen production in real-world operations. The 2.6MW Sunfire-made electrolyser operates at up to 850ºC to produce over 60kg of green hydrogen per hour, making it what project partners call the “world’s largest” multi-megawatt high-temperature electrolyser in an industrial environment. Hydrogen generated by the system is being used to replace grey hydrogen at the site to help reduce greenhouse gas emissions. https://lnkd.in/dRPHegrY

🚀 A Breakthrough in Hydrogen Storage We are advancing the future of clean energy with innovative hydrogen storage technology. 💡 Using porous carbon adsorbents, hydrogen molecules can be captured and released reversibly. ⚙️ The system operates safely at low pressure (30–40 bar) and under moderate cooling (-80°C). 📦 The result? A storage density comparable to compressed or liquid hydrogen – but with greater safety, modularity, and cost efficiency. Modular units, ranging from 250 to 1000 kg, make hydrogen storage scalable for diverse applications – from industrial energy solutions to mobility and beyond. Hydrogen is a key enabler of the energy transition. With technologies like this, it becomes safer, more practical, and economically viable. #Hydrogen #CleanEnergy #Innovation #EnergyTransition #Sustainability

⚛️🚗 𝐖𝐎𝐑𝐋𝐃 𝐇𝐘𝐃𝐑𝐎𝐆𝐄𝐍 𝐃𝐀𝐘 🚗⚛️ As the demand for #hydrogen grows across all industries, its transport will play a major role in connecting production, storage, and end-use. At #Clariant, we make bold moves with hydrogen transport. Our catalyst technologies enable the conversion of hydrogen into chemicals such as ammonia for long-distance transport – over 3- 5,000km – which is then reconverted at the point of use through ammonia cracking. Our solutions for hydrogen transport are part of Clariant’s broader initiative to support a wide range of industries in the #EnergyTransition. This includes decarbonizing hard-to-abate sectors, advancing the #HydrogenEconomy, and promoting the adoption of renewable energy sources. Watch how we innovate for #GreaterChemistry!