Scientists develop a microscopic heat engine that achieves 100% efficiency, accomplishing what seemed impossible.

A McGill University-led research team has demonstrated the feasibility of a sustainable and cost-effective way to desalinate seawater. The method—thermally driven reverse osmosis (TDRO)—uses a ...

Explore how combined cycle gas turbines hit 64% efficiency, capture waste heat for power, and how CCGT compares with coal and nuclear in grids ...

A tiny, particle-sized engine that runs at temperatures approaching the innermost core of the Sun could open a window into ...

A McGill University-led research team has demonstrated the feasibility of a sustainable and cost-effective way to desalinate seawater. The method – thermally driven reverse osmosis (TDRO) – uses a ...

The simple, non-negotiable truth is this: when it comes to outright fuel efficiency, the diesel engine is, mechanically and chemically, superior.

A McGill University-led research team has demonstrated the feasibility of a sustainable and cost-effective way to desalinate seawater. The method ...

Driven by the pressing need for environmental responsibility and sustainability, cooling technologies are rapidly evolving.

Researchers from Skoltech, the University of Potsdam, and the Massachusetts Institute of Technology have discovered a ...

Another way to view the current market environment is by explaining the difference between another thermodynamic concept: ...

Variable cycle engine design embodies a transformative approach in aero‐propulsion, enabling engines to adapt their thermodynamic cycle to meet diverse operational demands, from fuel efficiency to ...

Discover how reading a quantum clock can surprisingly cost more energy than keeping it ticking, impacting timekeeping and ...