Physical model of fluid flow characteristics in RH-TOP vacuum refining process

Lu Lin; Yan-ping Bao; Feng Yue; Li-qiang Zhang; Hong-lin Ou

doi:10.1007/s12613-012-0584-4

International Journal of Minerals, Metallurgy, and Materials ›› 2012, Vol. 19 ›› Issue (6) : 483 -489. DOI: 10.1007/s12613-012-0584-4

Article

Physical model of fluid flow characteristics in RH-TOP vacuum refining process

Author information +

History +

PDF

Abstract

To understand the characteristic of circulation flow rate in 250-t RH-TOP vacuum refining process, the l:4 water model test was established through the bubble behavior and gas holdup in the up-leg to investigate the effects of different processes and equipment parameters on the RH circulation flow rate. With the increases of lifting gas flow rate, lifting bubble travel, and the internal diameter of the up-leg, and the decrease of nozzle diameter, the work done by bubble floatage and the circulation flow rate increase. The expression of circulation flow rate was derived from the regression analysis of experiment data. Meanwhile, the influences of vacuum chamber pressure and nozzle blockage situation on the circulation flow rate were discussed in detail by the bubble behavior and gas holdup in the up-leg. It is necessary to maintain a certain vacuum chamber liquid level in the molten steel circulation flow. Compared with a nozzle with symmetrical blockage in the up-leg, when a nozzle with non-symmetrical blockage is applied, the lifting gas distribution is non-uniform, causing a great effect on the molten steel circulation flow and making the circulation flow drop largely.

Keywords

steelmaking / refining / molten steel / flow characteristic / bubbles / nozzles

Cite this article

Download citation ▾

Lu Lin, Yan-ping Bao, Feng Yue, Li-qiang Zhang, Hong-lin Ou. Physical model of fluid flow characteristics in RH-TOP vacuum refining process. International Journal of Minerals, Metallurgy, and Materials, 2012, 19(6): 483-489 DOI:10.1007/s12613-012-0584-4

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Zhang L., Sun Y.H., Zhu J.F., Xu Z.B., Cai K.K. Numerical simulation of liquid steel flowing in RH refining process and its application. J. Univ. Sci. Technol. Beijing, 2009, 31(7): 821.

[2]	Peng Y.C., Li H.L., Liu A.H., Xiao Z.Q. Water model of RH furnace. Iron Steel, 1994, 29(12): 15.

[3]	Wei J.H., Yu N.W., Fan Y.Y., Ma J.C., Zhu D.P., Yang S.L. Study on flow and mixing characteristics of molten steel in RH and RH-KTB refining processes. J. Shanghai Univ., 2002, 6(2): 167

[4]	Geng D.Q., Lei H., Zhang X.W., He J.C. Water modeling study on circulation flowrate and mixing characteristics in RH-PTB process. J. Northeast. Univ. Nat. Sci., 2010, 31(8): 1126.

[5]	S.C. Fan and G.Y. Xiong, Experimental study on new type of RH degassing vessel water model, Vacuum, (2001), No.6, p.35.

[6]	Li B.K., Tsukihashi F. Modeling of circulating flow in RH degassing vessel water model designed for two- and multi-legs operations. ISIJ Int., 2000, 40(12): 1203

[7]	Kuwabara T., Umezawa K., Mori K., Watanabe H. Investigation of decarburization behavior in RH reactor and its operation improvement. Trans. Iron Steel Inst. Jpn., 1988, 28(4): 305

[8]	Ai X.G., Bao Y.P., Jiang W., Liu J.H., Li P.H., Li T.Q. Periodic flow characteristics during RH vacuum circulation refining. Int. J. Miner., Metall. Mater., 2010, 17(1): 17

[9]

Da Silva C.A., Da Silva I.A., De Castro Martins E.M., Seshadri V., Perim C.A., Vargas Filho G.A. Fluid flow and mixing characteristics in RH degasser of Companhia Siderúrgica de Tubarão, and influence of bottom gas injection and nozzle blockage through physical modelling study. Ironmaking Steelmaking, 2004, 31(1): 37

[10]	Ahrenhold F., Pluschkell W. Circulation rate of liquid steel in RH degassers. Steel Res., 1998, 69(2): 54.

[11]	Han X., Peng Y.C., Xiao Z.Q., Zhai Y.B. Penetration behavior of immersion side-blown gas tilting in a bath. J. Northeast. Univ. Nat. Sci., 1996, 17(4): 364.

[12]	Wang D.L., Hong B.Y. Vacuum Treatment of Molten Steel, 1975, Beijing, Metallurgical Industry Press, 87.

[13]	Li B.K., Huo H.F., Luan Y.J., Qi F.S. Homogenous flow model for gas driven circulating flow in RH refining system. Acta Metall. Sin., 2005, 41(1): 60.

[14]	Wang X.D., Wang W.N. Simulation of vacuum Ruhrstahl-Heraeus-degassing at different gas circulation flow rates. J. Vac. Sci. Technol., 2009, 29(6): 682.

[15]	Tanaka H., Kambara R., Lin S.Y. The circulation rate of RH vacuum degassing method. Ironmaking Res., 1978, 293, 49.

[16]	Ono K., Yanagida M., Katoh T., Miwa M., Okamoto T. The circulation rate of RH degassing process by water model experiment. Electr. Furn. Steel, 1981, 52(3): 149.