Detonation combustion achieves near-constant-volume burning, drastically reducing entropy generation and wasting less energy as heat compared to traditional deflagration propulsion. Its supersonic ...

Liquid-fuelled rocket engine design has largely followed a simple template since the development of the German V-2 rocket in the middle of World War 2. Propellant and oxidizer are mixed in a ...

The US Navy relies heavily on gas turbine engines to power both aircraft and ships, spending about $2 billion (with a “b”… or about one tenth of NASA’s entire budget last year) every year on fuel for ...

Scientists analyzed detonation formation in hydrogen/methane air mixtures, quantifying the effect of non-thermal reactions on the mechanism of detonation Small-displacement turbocharged internal ...

The bright minds from the University of Central Florida (UCF) are on a path to revolutionize the future of air travel, and even facilitate interplanetary transportation. In the quest to find a ...

For the first time, researchers were able to demonstrate the process of detonation formation using both experiments and numerical simulations carried out on supercomputers. Understanding the ...

Detonation wave propulsion harnesses the rapid, self-sustaining shock‐driven combustion of fuel–oxidiser mixtures to achieve pressure gain and significantly higher energy release rates than ...