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Synthesis of silica-carbon particles in a turbulent H-2-air flame aerosol reactor

Type of Publication
Year of Publication
2001
Authors

H.K. Kammler; R. Mueller; O. Senn; S.E. Pratsinis

Abstract

Synthesis of flame-made nanostructured powders was studied, for the first time, at high production rates (up to 700 g/h) in a turbulent diffusion flame reactor, addressing also the required safety concerns. A commercial hydrogen-air burner was used for synthesis of pure silica and composite silica-carbon particles by oxidation of hexamethyldisiloxane. The product powder was collected continuously in a baghouse filter unit and cleaned periodically by air-pressure shocks. The effect of the fuel (hydrogen) flow rate, powder production rate and total oxidant flow rate on product particle size, morphology, and composition was also investigated. Nitrogen adsorption, transmission electron microscopy and thermogravimetric analysis coupled with a mass spectrometer, ans a CO2-analyzer were employed to characterize specific surface area and powder composition. Typically, aggregates of silica-carbon composite particles (0 to 1.4 wt.%2carbon) were made on specific surface areas of 75 to 250 m(2)/g at production rates of 125 to 700 g/h, which correspond to particle concentrations of 17 to 93 g/m(3) (2-10%2solid fraction by weight).

DOI

10.1002/aic.690470707

Volume

47

Notes

Times Cited: 29 29

Pagination

1533-1543

Number
7
ISSN Number

0001-1541

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