Working Silica in the Oxy-Gas Blowpipe Flame

The positive and negative ions in atmospheric pressure flames of C2H 2 + 02 + N 2 have been examined mass spectrometricaUy with the much improved sampling systems now available. There is clear evidence that some (but not all) ionic reactions are fast enough to proceed in the time of around 1 ~ts tak

The effect of ferrocene additive on the specific surface area of silica particles synthesized in a diffusion flame reactor was studied. Three different mixing configurations of the reactant gases were investigated. The SiC14 mole fraction in the flame was varied from 1.2 × 10 3 to 4 x 10 -3. Ferroce

This study investigates the effect of gas flow rates of air, nitrogen and argon on the synthesis of silica nanopowders in a diffusion flame reactor. The silica powders were prepared by high temperature oxidation of tetraethyl-ortho silicate (TEOS) in a three-port diffusion flame burner. The present

Oxy-fuel combustion in separated-jet burners has been proven to increase thermal efficiency and to have a potential for NOx emission reduction. This paper presents an investigation into confined, turbulent, oxy-flames generated by a burner consisting of a central natural gas jet surrounded by two ox