Emerson | Flexim UK’s Post

🌍💡 Dive into the future of clean energy with our latest post on how hydrogen is powering renewable energy innovations! From green to blue hydrogen, discover the roles, challenges, and exciting potential of hydrogen in shaping a sustainable world. Read more: https://lnkd.in/dbpUEfvF #renewableenergy #hydrogen #hydrogenpower #sustainablefuture

🌎Green hydrogen (GH2 or GH2) is hydrogen produced by the electrolysis of water, using renewable electricity.Production of green hydrogen causes significantly lower greenhouse gas emissions than production of grey hydrogen, which is derived from fossil fuels without carbon capture. 📌Green hydrogen's principal purpose is to help limit global warming to 1.5 °C, reduce fossil fuel dependence by replacing grey hydrogen, and provide for an expanded set of end-uses in specific economic sectors, sub-sectors and activities. These end-uses may be technically difficult to decarbonize through other means such as electrification with renewable power. Its main applications are likely to be in heavy industry (e.g. high temperature processes alongside electricity, feedstock for production of green ammonia and organic chemicals, as an direct reduction steelmaking), long-haul transport (e.g. shipping, aviation and to a lesser extent heavy goods vehicles), and long-term energy storage. #greenhidrogen #globalwarming #renewablepower #electrification #organicchemicals

I am still learning the science, so I cannot comment on the economics of these systems, but proof of concept is a critical step to a viable solution. Just my opinion, but modern communications and monitoring technology means that deployable power and micro-grids could meet variable load better than static power on demand installations. Just like cell towers replaced copper phone lines, wi-fi and blue-tooth replaced ethernet and cat-5 cables. Small-form on-site generation and storage, scalable and flexible, would seem to offer a wide range of solutions that bring the power one needs to the place one needs it. #hydrogeneconomy #microgrids #fuelcells

#Green_hydrogen Green hydrogen is hydrogen produced by using renewable energy sources, such as wind, solar, or hydropower, through a process called electrolysis. This method splits water into hydrogen and oxygen without emitting carbon dioxide, making it an environmentally friendly option. •Benefits of Green Hydrogen: 1. Zero Emissions: Producing green hydrogen results in no greenhouse gas emissions, helping to combat climate change. 2. Energy Storage: It can store excess renewable energy, balancing supply and demand. 3. Versatility: Green hydrogen can be used in various sectors, including transportation, industry, and power generation. 4. Energy Security: It reduces dependence on fossil fuels, enhancing energy security. 5. Economic Growth: Investing in green hydrogen can create jobs and stimulate economic growth in the renewable energy sector. These benefits make green hydrogen a promising solution for a sustainable and clean energy future. #Power #Electricity #remewable_electricity #chemist #Hydropower #clean_energy #electrolysis #energy_transition

🌟 Embracing the Future: Micro Grids and Renewable Energy 🌟 I firmly believe that the future lies in Micro Grids powered by renewables. Solutions like solar, wind, and storage offer not just a sustainable path forward but also immense potential for widespread adoption beyond remote communities. In particular, I see Green Hydrogen emerging as a crucial component for storing surplus energy for long-term use. Its versatility and scalability hold promise for revolutionizing how we manage energy production and consumption. Let's harness the power of innovation and renewable resources to shape a greener, more sustainable future for generations to come! 💡🌍 #RenewableEnergy #MicroGrids #GreenHydrogen #Sustainability

The cost-optimal #design of a #hydrogen production system is crucial for achieving low-cost green hydrogen and promoting its use in hard-to-abate sectors. The size of the renewable generator (PV and/or wind) and the #electrolyser are key factors in building a cost-effective plant. This study aims to investigate the #optimal size ratio between the renewable generator and the electrolyser under various scenarios. The rationale behind the cost-optimal design point is discussed using a replicable methodology based on #energy and #economic #indicators. Our goal is to enable players entering the hydrogen market to leverage these findings to evaluate the most suitable configurations for power-to-hydrogen systems, whether based on #PV, #wind or #hybrid configurations. This study was conducted in collaboration with Ministero dell'Ambiente e della Sicurezza Energetica. Special thanks to the coauthors Marta Gandiglio, Roberto Cianella, Marcello Capra and Massimo Santarelli. Stefano Raimondi is also greatly acknowledged for his support to this work. https://lnkd.in/dTk7Ha_v STEPS - Synergies of Thermo-chemical and Electro-chemical Power Systems

Researchers worldwide are looking into this renewable power for greener H2 It isn’t news that hydrogen production needs to be cleanly powered for the fuel to be considered green, so wind energy has...READ More #cleanhydrogen #Climatechangemitigation #electrolyzertechnology #energytransition #greenhydrogenproduction #hydrogeneconomy #offshorewindfarms #renewableenergy #USDepartmentofEnergy

#Green_Hydrogen is a form of hydrogen produced using #renewable_energy sources, such as wind, solar, or hydropower, through a process called electrolysis. It is considered “green” because its production does not emit carbon dioxide (CO₂), making it an environmentally friendly alternative to fossil fuels. How Green Hydrogen is Produced from Water: 1. Electrolysis Process: #Water (H₂O) is split into #hydrogen (H₂) and #oxygen (O₂) using electricity in a device called an electrolyzer. 2. Renewable Energy: The electricity used in the electrolyzer comes from renewable energy sources like solar panels or wind turbines, ensuring that the entire process is carbon-neutral. 3. Hydrogen Collection: The hydrogen gas produced is collected and can be stored for later use, while oxygen is released into the atmosphere as a byproduct. This method makes green hydrogen a sustainable and clean energy carrier, with potential applications in transportation, industry, and energy storage. #SustainableEnergy #cleanhydrogen

🌐 Embracing Hydrogen: A Solution to Renewable Energy's Intermittency 🌱⚡ As nations worldwide diligently push towards a greener future, renewables are set to account for 18% of primary energy by 2035, according to the International Energy Agency. Yet, the intermittent nature of solar and wind power poses challenges, especially when optimal production locations are distant from high-demand areas. Energy storage emerges as the linchpin for a reliable and resilient renewable energy grid. Traditional fossil fuels excel in this aspect, but the global shift away from them is imperative due to supply, emission, and political concerns. Enter hydrogen: a versatile energy carrier that offers promising opportunities for long-term storage. Hydrogen can be produced from various sources and stored in multiple forms, making it adaptable for fuel cells, turbines, or internal combustion engines. Challenges persist, notably in the production of low-carbon hydrogen and the sluggish development of hydrogen infrastructure. However, advancements in electrolysis technology offer a beacon of hope. Electrolyzers, powered by renewable energy sources, can efficiently produce hydrogen, providing a decentralized and modular approach to energy storage. Electrolyzers have distinct advantages: ✅ Producing ultra-pure hydrogen ✅ On-site production, reducing transportation costs ✅ Cost-effectiveness compared to high-pressure cylinder transport With ample global solar and wind resources, electrolysis has the potential to align with governments' cost requirements. As we envision a sustainable future, the integration of electrolyzers, hydrogen storage, and fuel cell systems emerges as a promising solution to harness renewable energy effectively. Join the movement towards a cleaner, more reliable energy landscape. Let's power the future with hydrogen! 💚🌍 #renewableenergy #hydrogenrevolution #cleanenergyfuture #sustainability #EnergyStorageInnovation