Progress in combustion science and engineering has led to the generation of large amounts
of data from large-scale simulations, high-resolution experiments, and sensors. This corpus …

Laser-induced incandescence (LII) is a widely used combustion diagnostic for in situ
measurements of soot primary particle sizes and volume fractions in flames, exhaust gases …

We present a numerical study of the combustion of single iron particles in an O 2–N 2
atmosphere. By resolving the full boundary layer, mass and heat transfer are accurately …

The synthesis of iron oxide nanoparticles from iron nitrate in the SpraySyn spray flame
reactor was investigated by experiment and simulation. The focus was on the spray and …

The Method of Moments (MOM) has largely been applied to investigate sooting laminar and
turbulent flames. However, the classical MOM is not able to characterize a continuous …

Iron oxide nanoparticles are very interesting for many applications in different industrial
sectors. A promising process to manufacture these nanoparticles is flame spray pyrolysis …

The SpraySyn burner has been developed to investigate nanoparticle synthesis from spray
flames by various diagnostic methods and simulations from research groups within the DFG …

Abstract Flame Spray Pyrolysis (FSP) is a method for large-scale production of nanoparticles
and nanoscale powders employed in a wide range of industrial applications. Particle size …

Following the ignition and solid-to-liquid phase transition of a fine (on the order of 10–100
µm in diameter) iron particle, the self-sustained combustion of a liquid-phase droplet of iron …

A comprehensive study on the influence of the unsteady non-reactive flow characteristics of
turbulent flow in a three-stage swirl combustion chamber using power spectral density …