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Journal of Iron and Steel Research International

15.04.2024 | Original Paper

Prediction of liquid circulation flow rate in RH degasser: improvement of decarburization at low atmospheric pressure

verfasst von: Gu-jun Chen, Sheng-ping He

Erschienen in: Journal of Iron and Steel Research International

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Abstract

The two-fluid model coupled with population balance model was used for simulating the gas–liquid flow in the Ruhrstahl–Heraeus (RH) degasser. The predicted circulation flow rate was compared with that measured from a water model experiment to validate the mathematical model. Then, influence of snorkel immersion depth on liquid circulation flow rate was numerically investigated under an atmospheric pressure of 101 and 84 kPa, respectively. Predicted result indicates that the circulation flow rate of the RH degasser in the high-altitude area was severely reduced because of the decrease in atmospheric pressure. However, increasing the snorkel immersion depth from 0.5 to 0.7 m can compensate for the decrease in atmospheric pressure. Industrial test result indicates that decarburization rate is significantly enhanced by increasing the snorkel immersion depth. Through optimization, the percentage of heats with a final carbon content less than 0.002 wt.% is significantly increased from 22.0% to 96.4%.
Literatur
[1]
G. Chen, J. Yang, L. Li, M. Zhang, S. He, J. CO2 Util. 50 (2021) 101586.
[2]
Y. Huang, G.G. Cheng, Q. Wang, S.J. Li, W.X. Dai, Ironmak. Steelmak. 47 (2020) 655–664.CrossRef
[3]
M.A. van Ende, Y.M. Kim, M.K. Cho, J. Choi, I.H. Jung, Metall. Mater. Trans. B 42 (2011) 477–489.CrossRef
[4]
D.Q. Geng, H. Lei, J.C. He, Metall. Mater. Trans. B 41 (2010) 234–247.CrossRef
[5]
[6]
S. Chen, H. Lei, H. Hou, C. Ding, H. Zhang, Y. Zhao, J. Mater. Res. Technol. 15 (2021) 5141–5150.CrossRef
[7]
H. Ling, F. Li, L. Zhang, A.N. Conejo, Metall. Mater. Trans. B 47 (2016) 1950–1961.CrossRef
[8]
G. Chen, S. He, Y. Li, Metall. Mater. Trans. B 48 (2017) 2176–2186.CrossRef
[9]
[10]
Q. Cao, D. Chu, J. Zhang, H. Bi, Y. Xuan, P. Li, JOM 73 (2021) 2660–2671.CrossRef
[11]
J. Dong, C. Feng, R. Zhu, G. Wei, J. Jiang, S. Chen, Metall. Mater. Trans. B 52 (2021) 2127–2138.CrossRef
[12]
C. Liu, L. Zhang, Y. Sun, W. Yang, Metall. Mater. Trans. B 53 (2022) 670–681.CrossRef
[13]
K. Peng, C. Liu, L. Zhang, Y. Sun, Metall. Mater. Trans. B 53 (2022) 2004–2017.CrossRef
[14]
K. Peng, J. Wang, Q. Li, C. Liu, L. Zhang, Metall. Mater. Trans. B 54 (2023) 928–943.CrossRef
[15]
[16]
B. Zhu, Q. Liu, M. Kong, J. Yang, D. Li, K. Chattopadhyay, Metall. Mater. Trans. B 48 (2017) 2620–2630.CrossRef
[17]
J.J.M. Peixoto, W.V. Gabriel, T.A. Santos Oliveira, C.A. Silva, I.A. Silva, V. Seshadri, Metall. Mater. Trans. B 49 (2018) 2421–2434.CrossRef
[18]
S.F. Chen, H. Lei, M. Wang, B. Yang, L.J. Dai, Y. Zhao, Vacuum 167 (2019) 255–262.CrossRef
[19]
[20]
[21]
[22]
[23]
T. Kuwabara, K. Umezawa, K. Mori, H. Watanabe, ISIJ Int. 28 (1988) 305–314.CrossRef
[24]
M. Zhu, Y. Wu, C. Du, Z. Huang, J. Iron Steel Res. Int. 12 (2005) No. 2, 20–24.
[25]
J. Zhang, L. Liu, X. Zhao, S. Lei, Q. Dong, ISIJ Int. 54 (2014) 1560–1569.CrossRef
[26]
[27]
[28]
C.W. Li, G.G. Cheng, X.H. Wang, G.S. Zhu, A.M. Cui, J. Iron Steel Res. Int. 19 (2012) No. 5, 23–28.CrossRef
[29]
Y.H. Li, Y.P. Bao, M. Wang, R. Wang, D.C. Tang, Ironmak. Steelmak. 42 (2015) 366–372.CrossRef
[30]
V. Seshadri, C.A. da Silva, I.A. da Silva, G.A. Vargas, P.S.B. Lascosqui, Ironmak. Steelmak. 33 (2006) 34–38.CrossRef
[31]
D.Q. Geng, J.X. Zheng, K. Wang, P. Wang, R.Q. Liang, H.T. Liu, H. Lei, J.C. He, Metall. Mater. Trans. B 46 (2015) 1484–1493.CrossRef
[32]
[33]
[34]
Y.G. Park, W.C. Doo, K.W. Yi, S.B. An, ISIJ Int. 40 (2000) 749–755.CrossRef
[35]
[36]
[37]
[38]
L. Schiller, Z. Naumann, Zeitschrift des Vereins Deutscher Ingenieure 77 (1935) 318–320.
[39]
O. Simonin, P. Viollet, Modeling of turbulent two-phase jets loaded with discrete particles. Phenomena in multiphase flows, Hemisphere Publ. Corporation, London, UK, 1990.
[40]
[41]
H. Luo, Coalescence, breakup and liquid circulation in bubble column reactors, The Norwegian Institute of Technology, Trondheim, Norway, 1993.
[42]
[43]
Metadaten
Titel
Prediction of liquid circulation flow rate in RH degasser: improvement of decarburization at low atmospheric pressure
verfasst von
Gu-jun Chen
Sheng-ping He
Publikationsdatum
15.04.2024
Verlag
Springer Nature Singapore
Erschienen in
Journal of Iron and Steel Research International
Print ISSN: 1006-706X
Elektronische ISSN: 2210-3988
DOI
https://doi.org/10.1007/s42243-023-01166-2

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