Turbulent multiphase combustion plays an important role in both nature (eg, volcanos and
pool fires) and industry (eg, industrial furnaces, aeroengines, and internal combustion …

The development of hydrogen gas turbine is one of the most important ways to achieve
energy conversion, but hydrogen fuel affects the combustion temperature and gas …

Ultrafine and highly light absorbing soot particles have been known to be harmful to human
health and a major climate forcer. Understanding the mechanisms of soot formation and …

Radiative heat transfer (RHT) is often the dominant mode of heat transfer in flames, fires,
and combustion systems and affects significantly temperature distributions directly and …

The sediment morphology and oxidation activity of soot at different heights above the burner
are studied for three fuels. The three fuels are n-heptane/iso-octane mixtures (0% 2, 5 …

Turbulent pool fires have been studied as a canonical configuration in fire science with wide
interest. A numerical study of a small-scale turbulent heptane pool fire is conducted in the …

Numerical simulations using large eddy simulation (LES) and Unsteady Reynolds Averaged
Navier–Stokes (URANS) are carried out to identify the underlying mechanisms that govern …

Soot particle dynamics, including particle size distributions (PSDs) and related statistics, are
of increasing practical significance due to evolving regulatory demands. The combination of …

In recent years, the importance of radiative heat transfer in combustion has been
increasingly recognized. Detailed models have become available that accurately represent …

In compression ignition engines, split-injection strategy has shown great benefits in reducing
pollutant emissions and improving combustion efficiency. Spray–flame interaction involving …