The Society for Chemical Engineering and Biotechnology and the German Academy of Science and Engineering Acatech have produced an analysis of the hydrogen policies of 22 nations and regions from 2017 to 2022.
Browsing: SPOTLIGHT
LED-powered hydrogen chips with high-performance computing and plasmonic nanotechnology could increase clean energy storage.
Australia shows that renewable energies are outpacing fossil fuels, but not by much. The Office of the Chief Economist at the federal Department of Industry, Science, and Resources estimates that Australian resource and energy projects are worth A$702 billion ($471 billion).
Western and Asian corporations are collaborating on enormous projects to develop green hydrogen, a promising power source. Major Western oil…
A large number of projects totalling 266 billion Australian dollars ($178 billion) have been proposed for it, but only one hydrogen project has received Australia Investments’ commitment. This demonstrates the scope of the challenge it faces in its quest to become a significant exporter of clean fuel.
To lower the price of clean-hydrogen technology, the US Department of Energy (DOE) plans to release $750 million in funding.
According to the plan that the Ministry for the Ecological Transition submitted to the European Union (EU) for consideration as a Project of Common Interest, Gijón will serve as the neuralgic point of connection for the first two axes of the fundamental network of green hydrogen in Spain (PCI).
According to a recent industry assessment, a Hydrogen Storage Business Model—a crucial tool that will increase the UK’s energy security—is urgently required, with interim steps in place before 2025.
Researchers at Don State Technical University (DSTU) have created a fresh technique for gathering and storing hydrogen for use as fuel. The electrochemical approach of hydrogen buildup in ceramic-metal electrode matrices is suggested to be used.
Researchers from RMIT claim that a novel electrolysis method enhanced by sound waves has unlocked the door to green hydrogen generation that is more affordable and energy-efficient. These high-frequency vibrations increase the hydrogen produced by ordinary electrolysis by 14 times.
