The effect of oxygen enrichment on soot formation and thermal radiation in turbulent, non-premixed methane flames

Shaddix, Christopher R.; Williams, Timothy C.

doi:10.1016/j.proci.2016.06.106

Title: The effect of oxygen enrichment on soot formation and thermal radiation in turbulent, non-premixed methane flames

Journal Article · Tue Jul 12 00:00:00 EDT 2016 · Proceedings of the Combustion Institute

DOI:https://doi.org/10.1016/j.proci.2016.06.106· OSTI ID:1326771

Shaddix, Christopher R. ^[1]; Williams, Timothy C. ^[1]

Sandia National Lab. (SNL-CA), Livermore, CA (United States)

Non-premixed oxy-fuel combustion of natural gas is used in industrial applications where high-intensity heat is required, such as glass manufacturing and metal forging and shaping. In these applications, the high flame temperatures achieved by oxy-fuel combustion increase radiative heat transfer to the surfaces of interest and soot formation within the flame is desired for further augmentation of radiation. However, the high cost of cryogenic air separation has limited the penetration of oxy-fuel combustion technologies. New approaches to air separation are being developed that may reduce oxygen production costs, but only for intermediate levels of oxygen enrichment of air. To determine the influence of oxygen enrichment on soot formation and radiation, we developed a non-premixed coannular burner in which oxygen concentrations and oxidizer flow rates can be independently varied, to distinguish the effects of turbulent mixing intensity from oxygen enrichment on soot formation and flame radiation. Local radiation intensities, soot concentrations, and soot temperatures have been measured using a thin-film thermopile, planar laser-induced incandescence (LII), and two-color imaging pyrometry, respectively. The measurements show that soot formation increases as the oxygen concentration decreases from 100% to 50%, helping to moderate a decrease in overall flame radiation. An increase in turbulence intensity has a marked effect on flame height, soot formation and thermal radiation, leading to decreases in all of these. The soot temperature decreases with a decrease in the oxygen concentration and increases with an increase in turbulent mixing intensity. Altogether, the results suggest that properly designed oxygen-enriched burners that enhance soot formation for intermediate levels of oxygen purity may be able to achieve thermal radiation intensities as high as 85% of traditional oxy-fuel burners utilizing high-purity oxygen.

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Research Organization:: Sandia National Lab. (SNL-CA), Livermore, CA (United States)

Sponsoring Organization:: USDOE National Nuclear Security Administration (NNSA)

Grant/Contract Number:: AC04-94AL85000

OSTI ID:: 1326771

Alternate ID(s):: OSTI ID: 1419562

Report Number(s):: SAND-015-7299C; PII: S154074891630164X

Journal Information:: Proceedings of the Combustion Institute, Vol. 36, Issue 3; Conference: Proposed for presentation at the Fall 2015 Meeting of the Western States Section of the Combustion Institute, Provo, UT (United States), 5-6 Oct 2015; ISSN 1540-7489

Publisher:: ElsevierCopyright Statement

Country of Publication:: United States

Language:: English

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Cited by: 26 works

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