Cracked ammonia has the potential to overcome some of hydrogen’s storage and transportation challenges. Read our latest blog to explore the intricacies of ammonia cracking, its transformative potential and the solutions required to speed up hydrogen’s use as a clean energy source. https://ow.ly/feIV50SPgeJ #Hydrogen #HydrogenEconomy #HydrogenTechnology #Ammonia
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Principal Consultant to the Govt | Bioethanol | BioGas| Petroleum Refinery Products | Decarbonization | Energy Transition| Green Hydrogen | Public Policy|Ex-ONGC | NIT W | IMT Ghzb | IIT B
Technical aspects of Green Hydrogen.. Nicely and concisely incorporated important facts... #greenhydrogen #hydrogen #hydrogeneconomy #hydrogenenergy
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This is how it all began. 🌟 Let's take a look back at the origins of Graforce and our ongoing mission to push the boundaries of plasma technology. Originally developed to split seawater, our technology does so much more: it transforms wastewater, biogas, flare gas, ammonia, and NG / LNG into clean hydrogen and other valuable materials/gas. Through our plasmalysis process, we go beyond traditional methods to offer sustainable solutions for some of the most pressing environmental and energy challenges of our time. #PlasmaTechnology #CCSU #Hydrogen #Circular
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⚙️ Did you know that all water can be used for generating hydrogen, but proper processing is crucial for equipment longevity? Explore our Hydrogen guide for more: https://lnkd.in/dspvvfcE #hydrogen #hydropower #water #watertreatment
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Why transition from helium to hydrogen as a GC-MS carrier gas? Hydrogen offers enhanced efficiency, cost savings, and significantly reduces environmental impact compared to helium. 🌍💡 Discover the environmental benefits and practical advantages/disadvantages of transitioning to hydrogen in our latest article: https://lnkd.in/du_uTwqm #AnalyticalChemistry #GCMS #Sustainability #Hydrogen #Cormica
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Whenever dealing with hydrogen, efficient compression is a key requirement. For decades, we have worked on reducing friction and optimizing efficiency in compressor bearings. We enable reliable rotation for critical hydrogen applications. Learn more; https://lnkd.in/e5MuUjHP #SKF #Hydrogen #ForABetterTomorrow
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Hydrogen for Emissions and Air Quality Monitoring Claind has built a solid expertise in the field of emissions and air quality monitoring, with numerous installations dedicated to monitoring flue gases, BTX and HTC air quality, hydrocarbons in the process, extraction gases, and the environment. Our hydrogen generators are specifically designed for environmental and process analysis. 🔬 Curiosity: Did you know that hydrogen is a key component in the precise monitoring of air quality and emissions? Hydrogen, used as a carrier gas in gas chromatography, provides exceptional accuracy in detecting pollutants and hydrocarbons. This makes it indispensable for ensuring compliance with environmental regulations and maintaining clean air standards. Discover more about how our hydrogen solutions can enhance your environmental monitoring efforts: Claind Products https://lnkd.in/dH6BDuza #Claind #Hydrogen #AirQualityMonitoring #EmissionsMonitoring #EnvironmentalAnalysis #Innovation #Sustainability
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Ammonia, Nitrogen | Green Hydrogen Significant traction for this document in the moderated focus group; https://bit.ly/3p2xh P 2 X So sharing more widely here
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The demand for #hydrogen is growing, but transporting it can be complex an costly. That's where ammonia comes in – a great #transport medium for green hydrogen! 🚚 Our #ammonia cracking process then splits it back into hydrogen and nitrogen. This is how we make the transport of hydrogen more efficient! 🔋 Learn more: https://lnkd.in/gSMsBX_Q
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Dear colleagues, please find attached our recent article dedicated to water consumption and #carbonfootprint of #hydrogen production. Link to ResearchGate is as follows https://lnkd.in/gyqp6P_U The article analyzes comparative #waterconsumption indicators for various technologies based on published research and actual data from production plants. Based on the operating industrial plant, the material balance of hydrogen production by steam reforming was demonstrated, which made it possible to determine the proportion of hydrogen (48.88%) obtained from water. Currently, the carbon footprint indicator is becoming more important, reflecting greenhouse gas emissions throughout the production chain. According to the results of the total greenhouse gas emissions assessment for hydrogen production by steam reforming #SMR (about 10.03kg CO2-eq/kg #H2),the carbon footprint of hydrogen from water (4.2-4.5 kg CO2-eq/kg H2) and hydrogen from methane (15.4-15.7 kg CO2-eq/kg H2) has been determined. Consequently, almost half of the hydrogen produced by steam reforming is produced from water, corresponds to the indicators of #lowcarbonhydrogen and can be considered as #renewablehydrogen.
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