Taking into account radiation effects is a crucial part of the design and optimization of
applications involving high temperatures. This paper outlines the development of a …

Abstracts Porous media combustion of lean and ultra-rich methane-air mixtures was
numerically studied using the approach when the process is simulated at the pore scale with …

The influence of hydrogen blending on the flashback limit of dihedral premixed laminar
flames stabilized on a slit burner is investigated via two-dimensional direct numerical …

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 …

This paper is devoted to the study of numerical methods used in the analysis of a thermal
transient flight cycle. Two priorities are stressed. The first one concerns a stability issue …

This paper presents a fundamental study of ultra-lean flames stabilized behind a thin, highly
conducting metallic rectangular bluff body acting as a flame holder. Using high fidelity …

A multi-physics simulation combining large-eddy simulation, conjugate heat transfer and
radiative heat transfer is used to predict the wall temperature field of a confined premixed …

A parameter study is performed in a compressible boundary-layer at supersonic conditions
to investigate the accuracy of a validated loosely-coupled Conjugate Heat Transfer (CHT) …

This paper presents a numerical study of ultra-lean hydrogen-methane flames stabilized
behind a rectangular, highly conducting metallic bluff body acting as a flame holder. Using …

Unsteady simulation with conjugate heat transfer has to tackle the stiffness issue that
originates from the wide disparate time scales between fluid and solid heat transfer. In the …