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Metallurgical and Materials Transactions B

Erschienen in:

21.02.2024 | Original Research Article

Numerical Study of the Kinetics of Dephosphorization with Single-Flow Post-combustion Oxygen Lance in Converter Steelmaking Process

verfasst von: Chao Liu, Shu-guo Zheng, Miao-yong Zhu

Erschienen in: Metallurgical and Materials Transactions B | Ausgabe 2/2024

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Abstract

A gas-metal two-phase flow model was established for the 250 t converter blowing process, and a coupled mass transfer model based on the standard k-ε model for converter dephosphorization kinetics was used to study the effects of different oxygen lances and bottom blows on the molten steel velocity, melt pool phosphorus distribution and end-point phosphorus content. The results show that the post-combustion oxygen lance (POL) had greater molten steel velocity, smaller dead zone area, larger impact area and lower phosphorus content in the molten pool than the conventional oxygen lance (COL). Top-bottom blowing conditions of the conventional oxygen lance (COLB) and post-combustion oxygen lance (POLB) in the melt pool speed were significantly increased, the impact area increased, and the efficiency of dephosphorization was improved. When the blowing time was 800 seconds, the phosphorus content of the COL, POL, COLB and POLB were 487, 426, 409, and 373 ppm, respectively. The POLB had the highest phosphorus removal efficiency and phosphorus content was in exponential relationship with blowing time. Finally, the industrial test was conducted in the 250 t converter, and the POL had little change in lance position during the blowing, the dephosphorization rate was increased by 1.41 pct, and the total iron in the final slag was slightly lower by 0.25 pct.

Vorheriger Artikel Interfacial Reactions Between Ce-Bearing Steels and a MgO-C Refractory

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H. Sun, J. Yang, R.H. Zhang, and W.K. Yang: Metall. Mater. Trans. B, 2021, vol. 52, pp. 3403–22.CrossRef

W.K. Yang, R.H. Zhang, H. Sun, and J. Yang: Steel Res. Int., 2022, vol. 93, p. 2100378.CrossRef

C.G. Zhou, Q.G. Chen, Y. Ji, S.H. Wang, D.G. Zhao, L.Q. Ai, D.S. Shi, and X.D. Shi: ISIJ Int., 2023, vol. 63, pp. 63–73.CrossRef

F. Yang and X.G. Bi: J. Iron. Steel Res. Int., 2011, vol. 6, pp. 113–18.

Y. Ogawa, M. Yano, S. Kitamura, and H. Hirata: Steel Res. Int., 2009, vol. 74, pp. 21–28.

W. Wu, Q.Y. Yang, Q. Gao, and J.Q. Zeng: J. Mater. Res. Technol., 2020, vol. 9, pp. 2754–61.CrossRef

Y. Wang, S.F. Yang, J.S. Li, J. Feng, and F. Wang: High Temp. Mater. Proc., 2018, vol. 37, pp. 625–33.CrossRef

W.K. Yang, J. Yang, Y.Q. Shi, Z.J. Yang, F.B. Gao, R.H. Zhang, and G.F. Ye: Ironmaking Steelmaking, 2021, vol. 48, pp. 69–77.CrossRef

C.G. Zhou, Q.G. Chen, Y. Ji, L.Q. Ai, S.H. Wang, Q.Y. Chen, and T.X. Yuan: Ironmaking Steelmaking, 2023, vol. 50, pp. 958–68.CrossRef

10.

H.M. Xue, J. Li, Y.J. Xia, Y. Wan, L.J. Chen, and C.J. Lv: Metals, 2021, vol. 11, p. 216.CrossRef

11.

R.H. Zhang, J. Yang, H. Sun, and W.K. Yang: Steel Res. Int., 2021, vol. 92, p. 2100256.CrossRef

12.

C.G. Zhou, J. Li, C.B. Shi, W.T. Yu, Z.M. Zhang, Z.M. Liu, and C.F. Deng: High Temp. Mater. Proc., 2016, vol. 35, pp. 433–40.CrossRef

13.

W.K. Yang, J. Yang, Y.Q. Shi, Z.J. Yang, F.B. Gao, R.H. Zhang, and G.F. Ye: Steel Res. Int., 2020, vol. 92, p. 2000438.CrossRef

14.

H. Sun, J. Yang, X.W. Lu, W.S. Liu, G.F. Ye, R.H. Zhang, and W.K. Yang: Metals, 2021, vol. 11, p. 1030.CrossRef

15.

Z. Wang, F.M. Xie, B. Wang, Q. Liu, X.C. Lu, L.N. Hu, and F. Cai: Steel Res. Int., 2014, vol. 85, pp. 599–609.CrossRef

16.

T. B. Zhang: study on high-efficiency and low-cost dephosphorization process of 80t converter in Xinxing ductile iron pipes Ltd, Ph.D. Thesis, School of Metallurgical and Ecological Engineering, University of Science and Technology Beijing, 2014.

17.

M. Lv, H. Li, T.C. Lin, K. Xie, and K. Xue: Steel Res. Int., 2021, vol. 92, p. 2100103.CrossRef

18.

M. Lv, H. Li, X.D. Xing, T.C. Lin, S.Y. Hu, and K. Xie: Steel Res. Int., 2022, vol. 93, p. 2100409.CrossRef

19.

G.Q. Liu, K. Liu, and P. Han: Ironmaking Steelmaking, 2021, vol. 48, pp. 437–46.CrossRef

20.

H.B. Jia, Y.X. Li, K. Liu, and L.H. Feng: AIP Adv., 2022, vol. 12, p. 075026.ADSCrossRef

21.

S.K. Choudhary and S.K. Ajmani: ISIJ Int., 2006, vol. 8, pp. 1171–76.CrossRef

22.

L.J. Yao, R. Zhu, K. Dong, G.S. Wei, F. Zhao, and Y.X. Tang: Ironmaking Steelmaking, 2021, vol. 48, pp. 180–90.CrossRef

23.

M. Lv, R. Zhu, X.Y. Wei, H. Wang, and X.R. Bi: Steel Res. Int., 2012, vol. 83, pp. 11–14.CrossRef

24.

C. Liu, S.G. Zheng, and M.Y. Zhu: Steel Res. Int., 2022, vol. 93, p. 2100677.CrossRef

25.

C. Liu, S.G. Zheng, and M.Y. Zhu: Metall. Mater. Trans. B, 2023, vol. 54, pp. 1245–61.CrossRef

26.

P.Y. Dong, S.G. Zheng, and M.Y. Zhu: Steel Res. Int., 2021, vol. 92, p. 2100203.CrossRef

27.

P.Y. Dong, S.G. Zheng, and M.Y. Zhu: JOM, 2022, vol. 74, pp. 1509–20.ADSCrossRef

28.

ANSYS FLUENT 16.0 theory guide, ANSYS Inc, Canonsburg 2018.

29.

M. Y. Zhu: Metallurgical Industry Press, Beijing 2011.

30.

W. Liu, S.F. Yang, J.S. Li, and M.H. Wang: High Temp. Mater. Proc., 2017, vol. 36, pp. 599–605.CrossRef

Titel: Numerical Study of the Kinetics of Dephosphorization with Single-Flow Post-combustion Oxygen Lance in Converter Steelmaking Process
verfasst von: Chao Liu
Shu-guo Zheng
Miao-yong Zhu
Publikationsdatum: 21.02.2024
Verlag: Springer US
Erschienen in: Metallurgical and Materials Transactions B / Ausgabe 2/2024
Print ISSN: 1073-5615
Elektronische ISSN: 1543-1916
DOI: https://doi.org/10.1007/s11663-024-03011-7

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