転炉内二次燃焼に及ぼす炉内水素濃度の影響
In this study, numerical simulation of high temperature combustion in CO–H2 mixture with oxygen jet has been conducted to consider post combustion in a converter for steel making process. In the numerical model, a detailed reaction model and mixture fraction model were used. The flammability charact...
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| Published in | 鉄と鋼 Vol. 97; no. 5; pp. 245 - 251 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | Japanese |
| Published |
一般社団法人 日本鉄鋼協会
01.05.2011
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0021-1575 1883-2954 |
| DOI | 10.2355/tetsutohagane.97.245 |
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| Abstract | In this study, numerical simulation of high temperature combustion in CO–H2 mixture with oxygen jet has been conducted to consider post combustion in a converter for steel making process. In the numerical model, a detailed reaction model and mixture fraction model were used. The flammability characteristics and flame structure were compared between both calculation results. The influence of H2 content in the mixture and the reaction mechanism of the combustion were discussed. In mixture fraction model, the post combustion ratio decrease with an increase of H2 content, but the influence of H2 content on post combustion ratio is small. On the other hand, in the detailed reaction model, the influence H2 content on post combustion ratio is bigger, and the post combustion ratio takes its maximum when the molar hydrogen concentration is 2%. When the molar hydrogen concentration is 20% in CO–H2 mixture, CO2 is decomposed around the edge of combustion zone, where the endothermic reaction occurs. Resultantly, the temperature in the downstream region is reduced. In the CO–H2 combustion, water vapor is also decomposed by the shift reaction through CO+H2O→CO2+H2. |
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| AbstractList | In this study, numerical simulation of high temperature combustion in CO–H2 mixture with oxygen jet has been conducted to consider post combustion in a converter for steel making process. In the numerical model, a detailed reaction model and mixture fraction model were used. The flammability characteristics and flame structure were compared between both calculation results. The influence of H2 content in the mixture and the reaction mechanism of the combustion were discussed. In mixture fraction model, the post combustion ratio decrease with an increase of H2 content, but the influence of H2 content on post combustion ratio is small. On the other hand, in the detailed reaction model, the influence H2 content on post combustion ratio is bigger, and the post combustion ratio takes its maximum when the molar hydrogen concentration is 2%. When the molar hydrogen concentration is 20% in CO–H2 mixture, CO2 is decomposed around the edge of combustion zone, where the endothermic reaction occurs. Resultantly, the temperature in the downstream region is reduced. In the CO–H2 combustion, water vapor is also decomposed by the shift reaction through CO+H2O→CO2+H2. |
| Author | 山田, 敏雄 林, 直樹 山下, 博史 岸本, 康夫 奥山, 悟郎 山本, 和弘 |
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| DocumentTitleAlternate | Influence of Hydrogen Content on Post Combustion in Converter |
| DocumentTitle_FL | Influence of Hydrogen Content on Post Combustion in Converter |
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| References | 7) Y.Kato, J.Grosjean and J.Reboul: Tetsu-to-Hagané, 75 (1989), 478. 14) JANAF Thermochemical Tables, Third Edition, (1985). 4) A.Shinotake and Y.Takamoto: La Rev. Metall., 00 (1993), 965. 3) Y.Kaneko and M.Osame: JFE Giho, 20 (2008), 79. 17) M.Nishioka, T.Yamada, D.Kawamata and Y.Kawaguchi: J. Combust. Soc. Jpn., 48 (2006), 379. 10) H.Gou and G.A.Iron: Metall. Trans. B, 24B (1993), 179. 6) K.Takahashi, Y.Tanabe, K.Iwasaki, M.Muroya, I.Kikuchi and M.Kawakami: Tetsu-to-Hagané, 76 (1990), 1887. 2) N.Takashiba, M.Nira, S.Kojima, H.Take and F.Yoshikawa: Tetsu-to-Hagané, 75 (1989), 89. 13) P.Saxena and F.A.Williams: Combust. Flame, 145 (2006), 316. 15) M.D.Smooke: Reduced Kinetic Mechanism and Asymptotic Approximations for Methane-Air Flames, Springer-Verlag, (1991), 1. 12) Y.Nabeshima, S.Ogura and S.Yamada: Kawasaki Steel Giho, 28 (1996), No. 4, 206. 8) M.K.Shin: ISIJ Int., 33 (1993), 369. 5) M.Matsuo, C.Saito, H.Katayama, H.Hirata and Y.Ogawa: Tetsu-to-Hagané, 76 (1990), 1879. 9) B.L.Ullrich: Steel Res., 67 (1996), 127. 11) T.Koga, K.Yamamoto, Y.Kishimoto and H.Yamashita: Trans. Jpn. Soc. Mech. Eng., B72 (2006), 2798. 1) M.Hirai, R.Tsujino, T.Mukai, T.Harada and M.Oomori: Tetsu-to-Hagané, 73 (1987), 1117. 16) FLUENT ver. 6.3 User's Guide, Fluent Inc. Fluent Asia Pacific, (2007). |
| References_xml | – reference: 5) M.Matsuo, C.Saito, H.Katayama, H.Hirata and Y.Ogawa: Tetsu-to-Hagané, 76 (1990), 1879. – reference: 15) M.D.Smooke: Reduced Kinetic Mechanism and Asymptotic Approximations for Methane-Air Flames, Springer-Verlag, (1991), 1. – reference: 2) N.Takashiba, M.Nira, S.Kojima, H.Take and F.Yoshikawa: Tetsu-to-Hagané, 75 (1989), 89. – reference: 9) B.L.Ullrich: Steel Res., 67 (1996), 127. – reference: 12) Y.Nabeshima, S.Ogura and S.Yamada: Kawasaki Steel Giho, 28 (1996), No. 4, 206. – reference: 14) JANAF Thermochemical Tables, Third Edition, (1985). – reference: 16) FLUENT ver. 6.3 User's Guide, Fluent Inc. Fluent Asia Pacific, (2007). – reference: 4) A.Shinotake and Y.Takamoto: La Rev. Metall., 00 (1993), 965. – reference: 17) M.Nishioka, T.Yamada, D.Kawamata and Y.Kawaguchi: J. Combust. Soc. Jpn., 48 (2006), 379. – reference: 6) K.Takahashi, Y.Tanabe, K.Iwasaki, M.Muroya, I.Kikuchi and M.Kawakami: Tetsu-to-Hagané, 76 (1990), 1887. – reference: 7) Y.Kato, J.Grosjean and J.Reboul: Tetsu-to-Hagané, 75 (1989), 478. – reference: 11) T.Koga, K.Yamamoto, Y.Kishimoto and H.Yamashita: Trans. Jpn. Soc. Mech. Eng., B72 (2006), 2798. – reference: 8) M.K.Shin: ISIJ Int., 33 (1993), 369. – reference: 3) Y.Kaneko and M.Osame: JFE Giho, 20 (2008), 79. – reference: 1) M.Hirai, R.Tsujino, T.Mukai, T.Harada and M.Oomori: Tetsu-to-Hagané, 73 (1987), 1117. – reference: 13) P.Saxena and F.A.Williams: Combust. Flame, 145 (2006), 316. – reference: 10) H.Gou and G.A.Iron: Metall. Trans. B, 24B (1993), 179. |
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| Title | 転炉内二次燃焼に及ぼす炉内水素濃度の影響 |
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