Characteristics of backward-inclined non-premixed jet flames in crossflow
•Jet inclination angle changed flow modes and therefore changed flame behaviors.•Shear-layer vortices and recirculation bubble dominated flame behaviors.•Three flame modes: crossflow dominated, transitional, and jet dominated.•Down-wash recirculation flames appeared at inclination angle smaller than...
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| Published in: | Experimental thermal and fluid science Vol. 98; pp. 429 - 444 |
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| Format: | Journal Article |
| Language: | English |
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01-11-2018
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| Abstract | •Jet inclination angle changed flow modes and therefore changed flame behaviors.•Shear-layer vortices and recirculation bubble dominated flame behaviors.•Three flame modes: crossflow dominated, transitional, and jet dominated.•Down-wash recirculation flames appeared at inclination angle smaller than 40 deg.•Temperature profiles presented characteristics in different flame modes.
The characteristics of backward-inclined non-premixed jet flames in a uniform crossflow were studied in a wind tunnel. Time-averaged photography techniques were used to study flame behavior. The flow field was captured by short exposure photography and Mie-scattering techniques. Flame temperatures were probed with a fine-wire R-type thermocouple. In the domain of jet-to-crossflow momentum flux ratio R and backward-inclination angle θ, the flames were categorized into three characteristic modes. The first mode consisted of crossflow dominated flames characterized by a down-wash recirculation flame in the wake of the burner tube. The second mode consisted of transitional flames characterized by a yellowish recirculation flame and a tail flame. The third mode consisted of jet dominated flames characterized by a blue flame base and an absence of the down-wash flame. The down-wash recirculation flames were observed for a backward inclination angle of θ < 40°. The ability of the flames to resist blow off when increasing the jet-to-crossflow momentum flux ratio decreased as θ increased. Coherent vortices were observed on the seeded fuel jet, whose type was dependent on R and θ. In the upstream region, the fuel appeared above the flame. However, in the downstream region, the fuel became engulfed within the flame. For a fixed θ, the Strouhal number of the upwind shear layer vortices on the fuel jet was observed to decrease asymptotically as R increased. In the near-field at x/d ≈ 5, the crossflow dominated flames presented temperature profiles characterized by a broad dual-hump peak profile in the symmetry plane, while in the near-field at x/d ≈ 5, the jet dominated flames presented a single peak profile in the symmetry plane. |
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| AbstractList | •Jet inclination angle changed flow modes and therefore changed flame behaviors.•Shear-layer vortices and recirculation bubble dominated flame behaviors.•Three flame modes: crossflow dominated, transitional, and jet dominated.•Down-wash recirculation flames appeared at inclination angle smaller than 40 deg.•Temperature profiles presented characteristics in different flame modes.
The characteristics of backward-inclined non-premixed jet flames in a uniform crossflow were studied in a wind tunnel. Time-averaged photography techniques were used to study flame behavior. The flow field was captured by short exposure photography and Mie-scattering techniques. Flame temperatures were probed with a fine-wire R-type thermocouple. In the domain of jet-to-crossflow momentum flux ratio R and backward-inclination angle θ, the flames were categorized into three characteristic modes. The first mode consisted of crossflow dominated flames characterized by a down-wash recirculation flame in the wake of the burner tube. The second mode consisted of transitional flames characterized by a yellowish recirculation flame and a tail flame. The third mode consisted of jet dominated flames characterized by a blue flame base and an absence of the down-wash flame. The down-wash recirculation flames were observed for a backward inclination angle of θ < 40°. The ability of the flames to resist blow off when increasing the jet-to-crossflow momentum flux ratio decreased as θ increased. Coherent vortices were observed on the seeded fuel jet, whose type was dependent on R and θ. In the upstream region, the fuel appeared above the flame. However, in the downstream region, the fuel became engulfed within the flame. For a fixed θ, the Strouhal number of the upwind shear layer vortices on the fuel jet was observed to decrease asymptotically as R increased. In the near-field at x/d ≈ 5, the crossflow dominated flames presented temperature profiles characterized by a broad dual-hump peak profile in the symmetry plane, while in the near-field at x/d ≈ 5, the jet dominated flames presented a single peak profile in the symmetry plane. |
| Author | Huang, Rong Fung Mosiria, Dickson Bwana Hsu, Ching Min |
| Author_xml | – sequence: 1 givenname: Dickson Bwana surname: Mosiria fullname: Mosiria, Dickson Bwana organization: Department of Mechanical Engineering, National Taiwan University of Science and Technology, Taipei 10672, Taiwan, Republic of China – sequence: 2 givenname: Rong Fung surname: Huang fullname: Huang, Rong Fung email: rfhuang@mail.ntust.edu.tw organization: Department of Mechanical Engineering, National Taiwan University of Science and Technology, Taipei 10672, Taiwan, Republic of China – sequence: 3 givenname: Ching Min surname: Hsu fullname: Hsu, Ching Min organization: Department of Mechanical Design Engineering, National Formosa University, Yunlin County 63246, Taiwan, Republic of China |
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| CitedBy_id | crossref_primary_10_1016_j_cjche_2024_03_007 crossref_primary_10_1063_5_0188555 crossref_primary_10_1016_j_ijheatfluidflow_2020_108549 crossref_primary_10_1016_j_proci_2022_09_036 crossref_primary_10_1016_j_ijmecsci_2021_106708 crossref_primary_10_1115_1_4044166 crossref_primary_10_1016_j_proci_2022_07_104 crossref_primary_10_1038_s41598_024_58267_5 crossref_primary_10_1016_j_ijmecsci_2022_108011 crossref_primary_10_1007_s10973_022_11348_x crossref_primary_10_1016_j_psep_2021_11_007 |
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| Keywords | Recirculation zone Shear layer vortices Diffusion flame Jet flame in crossflow |
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