Probability density function (PDF) methods offer compelling advantages for modeling
chemically reacting turbulent flows. In particular, they provide an elegant and effective …

The initiation of turbulent non-premixed combustion of gaseous fuels through autoignition
and through spark ignition is reviewed, motivated by the increasing relevance of these …

A major goal of combustion research is to develop accurate, tractable, predictive models for
the phenomena occurring in combustion devices, which predominantly involve turbulent …

A chemical explosive mode analysis (CEMA) was developed as a new diagnostic to identify
flame and ignition structure in complex flows. CEMA was then used to analyse the near-field …

Turbulent premixed combustion involves simultaneous and mutually interacting fluid,
chemical, and transport phenomena spanning a wide range of spatial and temporal scales …

The recently developed method of chemical explosive mode (CEM) analysis (CEMA) was
extended and employed to identify the detailed structure and stabilization mechanism of a …

Direct numerical simulation (DNS) of the near field of a three-dimensional spatially
develo** turbulent lifted hydrogen jet flame in heated coflow is performed with a detailed …

The stabilisation region of turbulent non-premixed flames of natural gas mixtures burning in
a hot and diluted coflow is studied by recording the flame luminescence with an intensified …

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

In situ adaptive tabulation (ISAT) is a proven storage/retrieval method which efficiently
provides accurate approximations to high-dimensional functions which are computationally …