References
- F. Ilinca, F. Ajersch, C. Baril and F. E. Goodwin: ‘Numerical simulation of the galvanizing process during GA to GI transition’, Int. J. Numer. Methods Fluids, 2007, 53, 1629–1646. doi: 10.1002/fld.1376
- P. Toussaint, P. Vernin, B. Symoens, L. Segers, M. Tolley, R. Winand and M. Dubois: ‘Experimental determination of velocity flow fields in continuous hot dip galvanising baths’, Ironmaking Steelmaking, 1996, 23, 357–360.
- C. Koutsaris, F. Ajersch, F. Ilinca and F. E. Goodwim: ‘Experimental simulation of dross generation for GA and GI operations’. Proc. 8th Int. Conf. on ‘Zinc and zinc alloy coated steel sheet’, Genova, Italy, June 2011, Associazione Italiana di Metallurgia.
- F. Ajersch, F. Ilinca, J. -F. Hétu and F. E. Goodwin: ‘Numerical simulation of the rate of dross formation in continuous galvanizing baths’, Proc. Iron & Steel Technology Conference (AISTech 2005), Charlotte, NC, USA, May 2005, AIST.
- J. Kurobe, M. Iguchi, S. Matsubara, K. Nakamo and Z. -I. Morita: ‘Cold model experiment on fluid flow phenomena in hot dip plating bath’, ISIJ Int., 1996, 36, 438–443. doi: 10.2355/isijinternational.36.438
- F. Ilinca, J. -F. Hétu and F. Ajersch: ‘Three-dimensional numerical simulation of turbulent flow and heat transfer in a continuous galvanizing bath’, Numer. Heat Transfer, A, 2003, 44A, 463–482. doi: 10.1080/713838256
- F. Ajersch, F. Ilinca and J. -F. Hétu: ‘Simulation of flow in a continuous galvanizing bath. Part I: thermal effects of ingot addition’, Metall. Mater. Trans. B, 2004, 35B, 161–170. doi: 10.1007/s11663-004-0106-5
- F. Ajersch, F. Ilinca, J. -F. Hétu and F. E. Goodwin: ‘Modeling as a management tool for operating continuous galvanizing baths’. Proc. 7th Int. Conf. on ‘Zinc and zinc alloy coated steel sheet’, Osaka, Japan, November 2007, Iron and Steel Institute of Japan.
- Y. H. Kim, Y. W. Cho, S. -H. Chung, J. -D. Shim and H. Y. Ra: ‘Numerical analysis of fluid flow and heat transfer in molten zinc pot of continuous hot-dip galvanizing line’, ISIJ Int., 2000, 40, 706–712. doi: 10.2355/isijinternational.40.706
- C. Liu: ‘Simulation of fluid flow, heat and mass transfer in hot dip galvanizing bath’. Master's thesis, Huazhong University of Science and Technology, Wuhan, China, January 23, 2013.
- P. Yang, X. P. Zhou, J. B. Liu, S. Yuan, C. Liu and J. Q. Chen: ‘Simulation of fluid flow and heat transfer in hot dip galvanizing bath’. Proc. 9th Int. Conf. on ‘Zinc and zinc alloy coated steel sheet’ & Proc. 2nd Conf. on ‘Asia-Pacific Galvanizing’, Beijing, China, September 2013, Metallurgical Industry Press of China, 481–485.
- S. Yuan, C. Liu, X. P. Zhou and P. Yang: ‘Study on characteristics of zinc flow and heat transfer in hot dip galvanizing bath’. Proc. Chinese Seminar on ‘25th hydrodynamics’ and Proc. 12th Chinese Conf. on ‘Hydrodynamics’, Zhoushan, China, September 2013, China Ocean Press, 823–828.
- H. S. Park, K. -A. Han, J. Lee and J. -W. Shim: ‘Numerical simulation of zinc flow and temperature distribution in a galvanizing zinc pot’, ISIJ Int., 2008, 48, 224–229. doi: 10.2355/isijinternational.48.224
- X. P. Zhou, C. Liu, P. Yang, S. Yuan, C. Q. Qian and B. Song: ‘Performance of inductors attached to a galvanizing bath’, Metall. Mater. Trans. B, 2013, 44, 1580–1585. doi: 10.1007/s11663-013-9938-1
- S. K. Dash, M. Dutta and N. Rajesh: ‘Use of flow barriers to eliminate vortex in the flow field generated in a continuous galvanizing bath’, ISIJ Int., 2005, 45, 1059–1065. doi: 10.2355/isijinternational.45.1059
- F. Ajersch, F. Ilinca and J. -F. Hétu: ‘Simulation of flow in a continuous galvanizing bath. Part II: transient aluminum distribution resulting from ingot addition’, Metall. Mater. Trans. B, 2004, 35, 171–178. doi: 10.1007/s11663-004-0107-4
- Fluent: ‘FLUENT 6.3 user's guide’; 2006, Lebanon, NH, USA, Fluent Inc.