Browsing: Research

In 2024, the EU absorbed 70 percent of the UK’s crude oil exports—worth £11.4 billion—and nearly all gas exports at…

Lithium-ion battery health prediction accuracy drops significantly after 100 cycles in existing systems, yet new research demonstrates a root mean…

12,000 cycles at 20C-rate with 99.2% capacity retention—the performance metric redefining durability for grid-scale batteries. The global push toward renewable…

Over one-third of Life Cycle Assessments (LCAs) scrutinizing hydrogen-based energy storage focus solely on greenhouse gas (GHG) emissions, neglecting critical…

The lithium-ion battery industry faces a $23 billion annual maintenance challenge, with traditional reactive approaches contributing to 70% of unexpected…

By 2024, the global sodium-ion battery (SIB) research ecosystem had generated over 15,600 peer-reviewed publications—an exponential growth from fewer than…

As cities worldwide grapple with energy security and sustainability challenges, innovative solutions such as off-grid smart city designs incorporating renewable energy have gained traction. A recent study published in the International Journal of Hydrogen Energy sheds light on an integrated energy system for a pilot region of 8,500 households, combining solar tower technology with dual storage solutions.

Hydrogen, an increasingly pivotal energy carrier, stands at the forefront of global efforts to transition to cleaner and more sustainable energy systems.

Geological hydrogen storage (GHS) is fast becoming a cornerstone for scalable, long-term hydrogen storage solutions, essential for a decarbonized energy system.

The energy sector is grappling with significant challenges as it transitions towards low-carbon technologies and sustainable practices. In this context, the integration of Combined Heat and Power (CHP) plants with thermal energy storage stands out as a compelling opportunity, yet it is fraught with complexity.