Previous attempts to model elevated-pressure coflow laminar flames have been hindered by
neglecting the preheating within the burner, caused by downward heat transfer to the …

Fractional-order moment formulations of the quadrature method of moments (QMOM) and
conditional quadrature method of moments (CQMOM) with a fixed quadrature point at the …

Soot formation from combustion devices, which tend to operate at high pressure, is a health
and environmental concern, thus investigating the effect of pressure on soot formation is …

The objective of this thesis is to study soot formation in laminar diffusion flames. For soot
modeling, a semi-empirical two equation model is chosen for predicting soot mass fraction …

Soot formation and radiation are important aspects for combustion problems. In this work,
numerical simulations of ethylene coflow laminar flames are used to evaluate soot formation …

Abstract Direct Numerical Simulation (DNS) data for high pressure H 2/O 2 and H 2/Air
flames using the compressible flow formulation, detailed kinetics, a real fluid equation of …

Abstract A Reynolds-averaged Navier-Stokes (RANS)-based computational framework for
predicting soot formation in turbulent flames using the commercial computational fluid …

New, efficient, realizable and hyperbolic interpolative-based first-and second-order
maximum entropy, M 1 and M 2, respectively, moment closures for providing approximate …

A previously developed parallel implicit adaptive mesh refinement (AMR) algorithm for the
prediction of three-dimensional (3D) steady laminar flames is revisited and extended to …

Numerical simulations of combustion can be very computationally expensive, particularly
when combustion of the complex fuels frequently found in aircraft gas turbine engines is …