Sector coupling remains a crucial measure to achieve climate change mitigation targets.
Hydrogen and Power-to-X (PtX) products are recognized as major levers to allow the …

The significant increase of carbon dioxide (CO 2) concentration in the atmosphere is
anticipated to contribute to global warming and climate instability. Reducing CO 2 emission …

To reveal the LPG/DME blended gas explosion venting flame-dual flow field overpressure
evolution characteristics, a multi-gas explosion venting experimental platform was …

The involvement of highly chemically reactive H 2 greatly increases the fuel explosion risk.
In order to reveal the elevated explosion risk of LPG/DME blended gas due to the …

While conventional DME synthesis is exclusively operated in a gas phase heterogenous
reaction system, reactive distillation unveils the potential for a process intensified, compact …

The experimental isotherms of 2-ethyl-2-oxazoline in supercritical carbon dioxide SCO 2)
were reported up to a pressure and temperature of 17.48 MPa and 393.2 K, respectively …

Dimethyl ether (DME) is an emerging alternative to traditional diesel and LPG as a power-to-
X product. This study employs kinetic models to simulate potential DME production routes …

Comparison of four potential routes to produce dimethyl ether from hydrogen and carbon
dioxide• Detailed process simulation of each considered production pathway• Evaluation of …

If climate change is evident, society's current ecological transition is also apparent.
Renewable energy sources utilisation is paramount to mitigate the anthropogenic …

Dimethyl ether (DME) is a biofuel that has the potential to replace diesel in heavy-duty
engines. A blend of propane (C3H8) and DME could reduce emissions when compared to …