Author: Arnes Biogradlija

MissionH24 has partnered with Toyota for an event at the Dreux circuit. The Automobile Club de l’Ouest (ACO) confirmed their attendance in this Toyota-organized event, which is part of the activities surrounding the Paris Games. Throughout August, various guests visited various circuits in the Western Paris region. This weekend, ACO and the MissionH24 team joined the event. Toyota transformed the Dreux circuit into a mobility showcase featuring vehicles powered by multiple energy sources, including hydrogen, and set up a dedicated pavilion to explore this theme. Representation in Motorsport The presence of the automobile competition was significant. Pierre Fillon, President of…

The race to lead the green hydrogen sector in North Africa has intensified, with Algeria and Tunisia poised to outpace Morocco by 2030. This prediction emerges from a comprehensive study by the International Renewable Energy Agency (IRENA), which details the region’s capabilities and roadmap. Strategic Vision and Investments Algeria and Tunisia have unveiled ambitious plans to develop their green hydrogen sectors. Both countries are leveraging their abundant solar and wind resources to implement large-scale renewable energy projects, which will be pivotal in producing green hydrogen. The governments have committed substantial investments in research and infrastructure to establish themselves as leaders…

Canada’s investment in innovative technology is vital to maintaining its leadership in the global energy sector. Ultra-low-carbon energy sources such as hydrogen, wind, solar, hydro, and nuclear power are pivotal not only for reducing energy costs but also for seizing economic opportunities nationwide. Funding for Six Hydrogen Projects The Honourable Jonathan Wilkinson, Minister of Energy and Natural Resources, revealed a $9.14 million investment in six projects to advance Canada’s clean hydrogen sector. This includes $2.74 million through the Energy Innovation Program: – University of British Columbia: $1.25 million to develop a pilot plant for low-cost, low-emission hydrogen production using patented…

The Korea Institute of Science and Technology (KIST), led by Director Sang-Rok Oh, announced on the 2nd that it has launched a new mission-oriented research institute called the Clean Hydrogen Convergence Research Institute. KIST appointed Dr. Seok-Woo Nam as the institute’s new project manager (PM). It brought on a hydrogen expert, Professor Kwan-Young Lee, formerly of Korea University’s Department of Chemical and Biological Engineering. Dr. Seok-Woo Nam, the new head of the institute, is a seasoned researcher in fuel cells and chemical hydrogen storage. He has played a crucial role at KIST, notably enhancing high-temperature fuel cell technologies and pioneering…

The Opel Movano Hydrogen will premiere at the IAA Transportation Show in Hanover. From September 17 to 22, Stellantis Pro One will participate in the event, which is the largest European trade fair dedicated to commercial and industrial vehicles. This event will showcase alternative energy solutions and unveil the hydrogen version of the Opel Movano. Stellantis’ Diverse Exhibition Stellantis will present various battery-powered models such as the Opel Combo Electric, Citroën E-Berlingo Crew Van, Peugeot e-Expert Fridge, and Fiat Professional E-Ducato Cargo Box. However, the spotlight will be on hydrogen fuel cell technology. This technology is already available for medium-sized…

Green hydrogen, produced using renewable energy sources, is heralded as the future of sustainable energy. Unlike gray hydrogen, derived from fossil fuels, green hydrogen offers a cleaner alternative that could significantly mitigate climate change impacts. Water-Use Concerns However, the production of green hydrogen involves water electrolysis, a process that splits water into hydrogen and oxygen. This requires substantial water, raising concerns about its feasibility in water-stressed regions. These regions often suffer from water scarcity, posing a significant challenge to the widespread adoption of green hydrogen technology. Strategies for Minimizing Water Usage To address these concerns, researchers are exploring several strategies.…

China’s foray into green hydrogen production heralded as the world’s largest of its kind, has encountered significant challenges in its initial year. The project delivered only approximately 35% of its anticipated output, highlighting the complexities and hurdles in scaling up such groundbreaking technology. The ambitious endeavor was expected to position China worldwide at the forefront of green hydrogen technology. The project aimed to harness renewable energy sources, predominantly wind and solar, to generate hydrogen via electrolysis, which splits water into hydrogen and oxygen. The resulting hydrogen is a key component in reducing carbon emissions and transitioning to a sustainable energy…

Nu:ionic and RW Energy have announced an ambitious partnership to modernize US energy parks. This collaboration aims to incorporate advanced hydrogen production and carbon capture technologies, marking a pivotal development in the industry’s shift towards greener energy solutions. Focus on Hydrogen Production Nu:ionic, renowned for its innovation in clean hydrogen production, is set to play a key role in this initiative. The company’s proprietary steam methane reforming technology enables efficient hydrogen generation with a lower environmental footprint than traditional methods. This technology is crucial for reducing greenhouse gas emissions and transitioning to a hydrogen-powered future. Carbon Capture Techniques On the…

Researchers at the University of Toronto (UOT) have leveraged artificial intelligence (AI) to uncover a new, highly efficient catalyst for electrolyzers, which are crucial for hydrogen production. Electrolysers play a pivotal role in the electrochemical splitting of water into hydrogen and oxygen, a process accelerated by catalysts typically made from metal alloys and oxides. Traditional methods of discovering these catalysts, often through laborious trial and error, have proven inefficient. Jehad Abed, a researcher at UOT, highlighted the challenge: “We’re dealing with hundreds of millions or billions of possible alloy combinations. The traditional approach is like finding a needle in a…

Dubai Electricity and Water Authority (DEWA) recently announced a 2.5-megawatt (MW) alkaline electrolyzer project tender. This project involves the electrolyzer’s design, supply, installation, and commissioning on a turnkey basis. An electrolyzer uses electricity to split water molecules, producing hydrogen. According to a DEWA notice, the final date for submitting completed tender applications is set for 11:00 am (Dubai Time) on 18 September 2024. This initiative builds on DEWA’s ongoing efforts in hydrogen production. DEWA operates a 1.25 MW Proton Exchange Membrane (PEM) electrolyzer powered by solar energy to produce 20 kg/hour of green hydrogen. This pilot project, initiated in May…