Biochar Today’s Post

Reverse Osmosis: The Key to Unlocking Sustainable Green Hydrogen Production. By ALICIA MOORE The quest for sustainable energy sources has led to a surge in the exploration of green hydrogen, a clean fuel derived from the electrolysis of water. However, the production process demands high-purity water—a requirement that poses a significant challenge amidst growing concerns over water scarcity and wastage in various sectors. The potential answer could lie in an unlikely source—tertiary treated wastewater. The Role of Tertiary Treatment in Enhancing Green Hydrogen Production Tertiary treatment, a crucial step beyond secondary water treatment, offers a solution by eliminating persistent contaminants and yielding cleaner water. This process, particularly regarding reverse osmosis (RO), has been spotlighted in a recent study as a viable method for utilizing tertiary treated wastewater in green hydrogen electrolysis. This breakthrough was published by Wei Liu, Heberto Bustamante, and Kondo-Francois Aguey-Zinsou at the MERlin, School of Chemistry, University of Sydney, Sydney, Australia, under the American Chemical Society. The study underscores the significance of reverse osmosis in the tertiary treatment, revealing how it allows for the creation of highly purified water that does not compromise the integrity of electrolyzers in the hydrogen production process. https://lnkd.in/d44zVWVN

Early Stage Technologies in the Renewal Energy Sector are increasingly at Risk due New and Emerging Technologies: New water splitting catalyst makes green hydrogen without expensive metals https://lnkd.in/eEHh3bEx

Have you heard about the latest breakthrough in hydrogen storage? An international research team, led by Washington State University has found a novel way to chemically bind and release hydrogen using a lignin-based jet fuel. Lignin is an organic polymer found in plants 🔋🌱 This game-changing discovery could pave the way for cleaner, more efficient and safer transport and energy systems—no pressurised tanks needed! If you're curious on how this could shape the future of #ZeroEmissions travel, read the full article: https://lnkd.in/e3p6iHw7 #Innovation #Sustainability #Research

Exciting advancements in green hydrogen production! Researchers have developed a method using aluminum and caffeine in saltwater, making hydrogen production more sustainable and cost-effective. This innovative approach significantly enhances alloy recovery and utilizes recycled materials and seawater. It's a game-changer for renewable energy, especially in marine applications. #GreenHydrogen #RenewableEnergy #Sustainability #Innovation #CleanTech #Recycling #EnvironmentalImpact #HydrogenEconomy #MarineEnergy #EcoFriendly #FutureTech #CleanEnergy #TechInnovation #GreenTech #RenewableResources https://lnkd.in/evbZy4PC

"Revolutionizing Sustainable Fuels: Breakthrough in Artificial Photosynthesis” A groundbreaking artificial photosynthesis system developed at the University of Michigan has achieved a significant milestone in sustainable fuel production. This system efficiently binds carbon atoms to produce ethylene, a key hydrocarbon used in plastics, with performance far surpassing existing methods. The innovative use of gallium nitride nanowires and copper clusters enables the device to operate for extended periods without degradation, marking a crucial step towards creating liquid fuels from CO2 and water. This advancement not only promises a sustainable alternative to fossil fuels but also paves the way for future developments in renewable energy technologies. Read more: https://lnkd.in/gdmvmJEm #SustainableEnergy #ArtificialPhotosynthesis #RenewableFuels #NanoTechnology #ClimateChange #Innovation

Exciting advancements in green hydrogen production! Researchers have developed a method using aluminum and caffeine in saltwater, making hydrogen production more sustainable and cost-effective. This innovative approach significantly enhances alloy recovery and utilizes recycled materials and seawater. It's a game-changer for renewable energy, especially in marine applications. #GreenHydrogen #RenewableEnergy #Sustainability #Innovation #CleanTech #Recycling #EnvironmentalImpact #HydrogenEconomy #MarineEnergy #EcoFriendly #FutureTech #CleanEnergy #TechInnovation #GreenTech #RenewableResources https://lnkd.in/eyFu-kGe

A team of researchers are working on proving it’s not. While producing clean hydrogen is achievablevia electrolysis, the reality is that currently many obstacles stand in the way of this energy...READ More #seawatercatalysis #seawaterhydrogenproduction #cleanhydrogenproduction #hydrogenproductionresearch #waterelectrolysis #LifengLiu #hydrogenproductioncosts #seawaterelectrolysis

Hydrogen from biochar Fuels derived from hydrogen show great promise as a clean energy source. However, the process of creating pure hydrogen gas is energy-intensive and frequently requires a lot of electricity, coal, or natural gas. To address this issue, a team led by UIC engineer Meenesh Singh evolved a new process for green hydrogen production. Researchers used a substance called biochar, which is high in carbon and reduces the electricity required to turn water into hydrogen. Biochar is generated through high-temperature carbonization processes like pyrolysis, gasification, and hydrothermal carbonization. It can be produced on both large industrial scales and small farm scales.

Opening new pathways for sustainable energy production & generation, a #WSU-led international team of scientists has discovered a way to store & release volatile hydrogen using lignin-based jet fuel. Hydrogren's low density & explosive nature make storage & transport technically challenging, inefficient, & expensive. This new technology could enable efficient, high-density hydrogen storage in an easy-to-handle sustainable aviation fuel, eliminating the need for pressurized tanks. #GoCougs Bin Yang https://lnkd.in/gc7nWKa3

Innovative breakthroughs in hydrogen production are on the horizon! Researchers at Oregon State University have developed advanced catalysts that significantly improve the efficiency and reduce the cost of producing green hydrogen. This new method could help produce hydrogen at less than $1 per kilogram, making it more competitive with traditional methods. Such advancements are crucial for achieving our sustainability goals and transitioning to a cleaner energy future. #GreenHydrogen #CleanEnergy #Innovation #Sustainability #RenewableEnergy #HydrogenEconomy #ClimateAction #EnergyTransition #Research #EcoFriendly #OSUResearch #FutureOfEnergy #Catalysts #EnvironmentalImpact #ZeroEmissions https://lnkd.in/gS7stQbH