Fuel preheat effects on soot-field structure in laminar gas jet diffusion flames burning in 0-g and 1-g
An experimental investigation conducted at the 2.2-s drop tower of the NASA Lewis Research Center is presented to quantify the influence of moderate fuel preheat on soot-field structure within 0-g laminar gas jet diffusion flames. Parallel work in 1-g is also presented to delineate the effect of ele...
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| Veröffentlicht in: | Combustion and flame 1999-02, Vol.116 (3), p.334-347 |
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| creator | Konsur, Bogdan Megaridis, Constantine M Griffin, Devon W |
| description | An experimental investigation conducted at the 2.2-s drop tower of the NASA Lewis Research Center is presented to quantify the influence of moderate fuel preheat on soot-field structure within 0-g laminar gas jet diffusion flames. Parallel work in 1-g is also presented to delineate the effect of elevated fuel temperatures on soot-field structure in buoyant flames. The experimental methodology implements jet diffusion flames of nitrogen-diluted acetylene fuel burning in quiescent air at atmospheric pressure. Fuel preheat of ∼100 K in the 0-g laminar jet diffusion flames is found to reduce soot loadings in the annular region, but causes an increase in soot volume fractions at the centerline. In addition, fuel preheat reduces the radial extent of the soot field in 0-g. In 1-g, the same fuel preheat levels have a more moderated influence on soot loadings in the annular region, but are also seen to enhance soot concentrations near the axis low in the flame. The increased soot loadings near the flame centerline, as caused by fuel preheat, are consistent with the hypothesis that preheat levels of ∼100 K enhance fuel pyrolysis rates. The results show that the growth stage of particles transported along the soot annulus is shortened both in 1-g and 0-g when elevated fuel temperatures are used. |
| doi_str_mv | 10.1016/S0010-2180(97)00297-6 |
| format | Article |
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Parallel work in 1-g is also presented to delineate the effect of elevated fuel temperatures on soot-field structure in buoyant flames. The experimental methodology implements jet diffusion flames of nitrogen-diluted acetylene fuel burning in quiescent air at atmospheric pressure. Fuel preheat of ∼100 K in the 0-g laminar jet diffusion flames is found to reduce soot loadings in the annular region, but causes an increase in soot volume fractions at the centerline. In addition, fuel preheat reduces the radial extent of the soot field in 0-g. In 1-g, the same fuel preheat levels have a more moderated influence on soot loadings in the annular region, but are also seen to enhance soot concentrations near the axis low in the flame. The increased soot loadings near the flame centerline, as caused by fuel preheat, are consistent with the hypothesis that preheat levels of ∼100 K enhance fuel pyrolysis rates. 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| fulltext | fulltext |
| identifier | ISSN: 0010-2180 |
| ispartof | Combustion and flame, 1999-02, Vol.116 (3), p.334-347 |
| issn | 0010-2180 1556-2921 |
| language | eng |
| recordid | cdi_proquest_miscellaneous_26972247 |
| source | Elsevier ScienceDirect Journals; NASA Technical Reports Server |
| subjects | Inorganic, Organic And Physical Chemistry |
| title | Fuel preheat effects on soot-field structure in laminar gas jet diffusion flames burning in 0-g and 1-g |
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