On-line monitoring of primary and agglomerate particle dynamics

The detailed evolution of primary and agglomerate particle growth during flame spray synthesis of 30g/h of zirconia nanoparticles is monitored online by a differential mobility analyzer (DMA), an aerosol particle mass (APM) analyzer and a condensation particle counter (CPC) as well as thermophoretic sampling/microscopy. The differences between measured projected-area equivalent diameter, diameter of gyration and mobility diameter are elucidated. Particles were sampled from distinct positions in the flame at up to 1700K and 1018particles/m3 using a probe allowing continuous aerosol extraction and rapid dilution with quench air that effectively suppressed coagulation. Primary particle growth was complete at ~10cm above the burner at about 1500K as the primary particle size did not change radially and axially downstream. As expected, the average agglomerate size increased with axial distance from the burner. Larger agglomerates, however, were observed at the edges of the aerosol plume attributed to prolonged residence time due to lower gas velocities there. Results were compared to off-line particle size characterization by nitrogen adsorption and thermophoretic sampling/transmission electron microscopy. •On-line aerosol diagnostics at high temperatures and concentrations.•Differences of mobility-gyration and projected area diameters are elucidated.•Evolution of axial and radial primary and agglomerate particle size distributions.•Method for process control, monitoring and optimization.