Power generation systems will reduce carbon emissions primarily through the application of
low or even zero carbon fuels under the global decarbonization trend. Ammonia is an ideal …

Many natural gas combustion devices work under non-atmospheric pressure, and the
pressure has a significant impact on the combustion process. In order to promote the …

Currently, the use of fossil fuels is very high and existing nature reserves are rapidly
depleted. Therefore, researchers are turning their attention to find renewable fuels that have …

Modern combustion processes widely use exhaust gas recirculation, oxyfuel combustion,
and other techniques that alter the concentration of diluent gases from that of the air. The …

This research is part of an effort in finding viable alternative refrigerants to mitigate
anthropogenic climate change. In this study binary zeotropic mixtures of selected …

As a zero-carbon fuel and a hydrogen derivative, ammonia is promising for large-scale use
in internal combustion engines under the global decarbonization background. Although …

This work reviews the impact of carbon dioxide (CO2) on laminar burning speed and stability
of the flame for methane (CH4) and propane (C3H8) combustion with air. Mixtures of CH4 …

This experimental research examined the effect of CO2 as a diluent on the laminar burning
speed of propane–air mixtures. Combustion took place at various CO2 concentrations (0 …

Hydrogen combustion, coupled with the use of argon as a working fluid, is a promising
approach to delivering clean and efficient energy from internal combustion (IC) engines. The …

The global trend toward decarbonization is inspiring researchers to search for low or even
zero carbon fuels for internal combustion engines. Ammonia (NH3) is considered a potential …