Hydrogen Storage and Transportation: The Role of LOHC Technology in a Sustainable Energy Future

4 October 2024 4 October 2024

As the world transitions to cleaner energy, hydrogen is a promising alternative to fossil fuels. However, storing and transporting hydrogen is challenging due to its low density and the extreme conditions needed to keep it in liquid form. Traditional methods require high-pressure compression or cryogenic temperatures, which are costly and energy-intensive. LOHC technology (Liquid Organic Hydrogen Carriers) offers a solution by allowing hydrogen to be stored and transported safely at ambient temperatures and pressures. This innovation could revolutionize industries like shipping, heavy manufacturing, and transportation by making hydrogen more accessible and cost-effective, contributing to a sustainable energy future.

The Future of Sustainable Transport: Talgo’s High-Speed Hydrogen-Powered Trains

4 October 2024 4 October 2024

At an altitude of 2,900 meters above sea level, the effects of climate change are starkly visible. The ski station has resorted to using plastic sheeting to preserve snow, illustrating the need for more sustainable solutions. Meanwhile, the transportation sector is seeing promising innovations like Talgo’s hydrogen-powered trains, or hydrail. This technology eliminates the need for overhead wires and significantly cuts carbon emissions, providing a potential game-changer in the fight against climate change. However, challenges such as hydrogen infrastructure costs and storage efficiency must be addressed before widespread implementation can take place. Governments and industries need to work together to overcome these obstacles, invest in hydrogen production, and build the necessary infrastructure.

Blue Hydrogen: A Green Dream or Ecological Nightmare?

8 September 2024 10 September 2024

Blue Hydrogen: A Clean Energy Dilemma
Despite being touted as a cleaner alternative to traditional fossil fuels, blue hydrogen faces significant environmental challenges. The production process, which involves carbon capture and storage (CCS), can lead to methane leakage, energy-intensive CCS operations, and potential CO2 storage leaks. These factors undermine the notion of blue hydrogen as a truly clean energy source, raising concerns about its contribution to climate change.

A Green Step Forward: Swiss Researchers Advance Hydrogen Storage

2 September 2024 10 September 2024

Swiss researchers at ETH Zurich have developed a novel method for hydrogen storage using iron oxide, potentially overcoming key challenges in the hydrogen economy. By reducing iron oxide with hydrogen, the gas can be stored and later released through oxidation with water. This innovative approach offers significant ecological benefits, including renewable energy integration and reduced carbon emissions, though challenges such as efficiency and scalability remain.