Industrial waste gases, long seen as a major contributor to climate change, could soon be captured and repurposed into everyday household products such as shampoo, detergent, and even fuel.

Maximize pneumatic conveying system performance with insights on material characteristics, flow rate optimization, and ...

Research on coral reef fishes reveals their physiological responses to extreme temperatures, highlighting adaptations and ...

Researchers from the Universities of Nottingham, Newcastle and Bristol are set to receive a £7 million grant from a funding ...

Hydrogen is a much-debated option in terms of CO2-neutral energy production. Electrolyzer units that split water into its ...

Smart grids are key to a sustainable energy future, enabling efficient renewable integration and enhancing grid reliability ...

This study highlights practitioners' views on large-scale wind and solar energy's biodiversity effects, emphasizing the need ...

This research on nickel-based cathodes offers insights into thermal stability, essential for developing safer, high-performance batteries for electric vehicles.

Declining ocean cloud cover is reflecting less sunlight, accelerating climate change and influencing ocean warming, as ...

Research shows rising methane levels could affect stratospheric ozone recovery, emphasizing the dual role of gases in climate ...

Effective e-waste recycling addresses environmental hazards and promotes resource recovery, tackling the growing challenge of ...

RECLAIM's robotic waste recovery plant offers a decentralized solution for efficient material recovery in remote areas and ...