As the world strives to transition to cleaner and sustainable energy sources, the hydrogen sector has emerged as a promising solution to decarbonize various industries. Companies like Plug Power are at the forefront of this transition, pioneering fuel cell technology to power vehicles and industrial applications.
As the world faces the urgent challenge of the climate crisis, the demand for sustainable and clean energy solutions has become paramount. Hydrogen, known for its clean-burning properties, has long been hailed as a potential game-changer in our energy landscape.
Researchers from Tel Aviv University have made a significant breakthrough in the production of “green” hydrogen, achieving an unprecedented 90% efficiency without emitting harmful carbon dioxide (CO2).
India, with its rapidly growing population and energy demands, is at a crucial juncture in its energy transition journey. To meet the country’s escalating energy needs while combating climate change, the Union Ministry of Petroleum and Natural Gas has set an ambitious goal to produce 25 million metric tonnes of hydrogen energy by 2050.
A consortium of researchers coordinated by the Fraunhofer Institute in Germany is currently working on a research project to enhance the reliability of hydrogen fuel cells, specifically low-temperature polymer electrolyte membrane fuel cells (NT-PEM-BZ), for use in commercial vehicles.
Australia is witnessing a remarkable surge in renewable energy, offering promising opportunities for increased investment in battery storage projects and the emergence of a hydrogen economy.
Researchers at West Virginia University (WVU), led by Professor Hailin Li, are developing an innovative hydrogen flexible boiler to revolutionize the food and beverage industry’s energy consumption.
A breakthrough in clean energy technology has been achieved at Rice University, where engineers have developed a highly efficient photoreactor that can turn sunlight into hydrogen with unparalleled efficiency.
Researchers at the University of Amsterdam (UvA) have made a groundbreaking discovery in an endeavor, utilizing flexible spheres of the biomolecule chitosan derived from shrimp waste to develop catalysts for generating hydrogen gas from borohydride salts.
As the world races to combat climate change, hydrogen emerges as a promising solution to decarbonize the power sector.
