Influence of Submerged Entry Nozzle Offset on the Flow Field in a Continuous Casting Mold
During the continuous casting process, the submerged entry nozzle (SEN) should be maintained at the geometric center of the mold. However, in actual production, factors such as deformation of the tundish bottom and inaccurate positioning of the traversing car occasionally cause SEN offset. SEN offse...
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MDPI AG
2025-05-01
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| author | Pengcheng Xiao Ruifeng Wang Liguang Zhu Chao Chen |
| author_facet | Pengcheng Xiao Ruifeng Wang Liguang Zhu Chao Chen |
| author_sort | Pengcheng Xiao |
| collection | DOAJ |
| description | During the continuous casting process, the submerged entry nozzle (SEN) should be maintained at the geometric center of the mold. However, in actual production, factors such as deformation of the tundish bottom and inaccurate positioning of the traversing car occasionally cause SEN offset. SEN offset can make the molten steel flow field in the mold asymmetric, increasing the risks of slag entrainment on the surface of the casting blank and breakout accidents. To evaluate the influence of different SEN offsets on the mold flow field, this study uses a slab continuous casting mold with a cross-section of 920 mm × 200 mm from a specific factory as the research object. Mathematical simulations were used to investigate the influence of SEN offsets (including width-direction and thickness-direction offsets) on the flow behavior of molten steel in the mold. A physical water model at a 1:1 scale was established for verification. Two parameters, the symmetry index (S) and the bias flow index (N), were introduced to quantitatively evaluate the symmetry of the flow field, and the rationality of the liquid-level fluctuation under this flow field was verified using the F-number (proposed by Japanese experts for mold level fluctuation control) from the index model. The results show the following: when the SEN offset in the thickness direction increases from 0 to 50 mm, the longitudinal symmetry index (S<i>y</i>) of the molten steel flow field in the mold decreases from 0.969 to 0.704—a reduction of 27.4%; the longitudinal bias flow index (N<i>y</i>) of molten steel level fluctuation increases from 0.007 to 0.186, representing a 25.6-fold increase, and the F-number rises from 4.297 to 8.482; when the SEN offset in the width direction increases from 0 to 20 mm, the transverse-axis symmetry index (S<i>x</i>) of the flow field decreases gradually from 0.969 to 0.753 at a 20 mm offset, which is a reduction of approximately 22.29%; the transverse-axis bias flow index (N<i>x</i>) increases from 0.015 to 0.174 at a 20 mm offset—an increase of 10.6 times; and the F-number increases from 4.297 to 5.548. Considering the comprehensive evaluation of horizontal/vertical symmetry indices, bias flow indices, and F-numbers under the two working conditions, the width-direction SEN offset has the most significant impact on the symmetry of the molten steel flow field. |
| format | Article |
| id | doaj-art-28d8b67e2d7e443ebaa41ab1ff435be5 |
| institution | DOAJ |
| issn | 2075-4701 |
| language | English |
| publishDate | 2025-05-01 |
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| series | Metals |
| spelling | doaj-art-28d8b67e2d7e443ebaa41ab1ff435be52025-08-20T03:16:22ZengMDPI AGMetals2075-47012025-05-0115657510.3390/met15060575Influence of Submerged Entry Nozzle Offset on the Flow Field in a Continuous Casting MoldPengcheng Xiao0Ruifeng Wang1Liguang Zhu2Chao Chen3School of Metallurgy and Energy, North China University of Science and Technology, Tangshan 063210, ChinaSchool of Metallurgy and Energy, North China University of Science and Technology, Tangshan 063210, ChinaCollege of Materials Science and Engineering, Hebei University of Science and Technology, Shijiazhuang 050018, ChinaCollege of Materials Science and Engineering, Taiyuan University of Technology, Taiyuan 030024, ChinaDuring the continuous casting process, the submerged entry nozzle (SEN) should be maintained at the geometric center of the mold. However, in actual production, factors such as deformation of the tundish bottom and inaccurate positioning of the traversing car occasionally cause SEN offset. SEN offset can make the molten steel flow field in the mold asymmetric, increasing the risks of slag entrainment on the surface of the casting blank and breakout accidents. To evaluate the influence of different SEN offsets on the mold flow field, this study uses a slab continuous casting mold with a cross-section of 920 mm × 200 mm from a specific factory as the research object. Mathematical simulations were used to investigate the influence of SEN offsets (including width-direction and thickness-direction offsets) on the flow behavior of molten steel in the mold. A physical water model at a 1:1 scale was established for verification. Two parameters, the symmetry index (S) and the bias flow index (N), were introduced to quantitatively evaluate the symmetry of the flow field, and the rationality of the liquid-level fluctuation under this flow field was verified using the F-number (proposed by Japanese experts for mold level fluctuation control) from the index model. The results show the following: when the SEN offset in the thickness direction increases from 0 to 50 mm, the longitudinal symmetry index (S<i>y</i>) of the molten steel flow field in the mold decreases from 0.969 to 0.704—a reduction of 27.4%; the longitudinal bias flow index (N<i>y</i>) of molten steel level fluctuation increases from 0.007 to 0.186, representing a 25.6-fold increase, and the F-number rises from 4.297 to 8.482; when the SEN offset in the width direction increases from 0 to 20 mm, the transverse-axis symmetry index (S<i>x</i>) of the flow field decreases gradually from 0.969 to 0.753 at a 20 mm offset, which is a reduction of approximately 22.29%; the transverse-axis bias flow index (N<i>x</i>) increases from 0.015 to 0.174 at a 20 mm offset—an increase of 10.6 times; and the F-number increases from 4.297 to 5.548. Considering the comprehensive evaluation of horizontal/vertical symmetry indices, bias flow indices, and F-numbers under the two working conditions, the width-direction SEN offset has the most significant impact on the symmetry of the molten steel flow field.https://www.mdpi.com/2075-4701/15/6/575continuous castingmold flow fieldnumerical simulationphysical simulationSEN centering |
| spellingShingle | Pengcheng Xiao Ruifeng Wang Liguang Zhu Chao Chen Influence of Submerged Entry Nozzle Offset on the Flow Field in a Continuous Casting Mold Metals continuous casting mold flow field numerical simulation physical simulation SEN centering |
| title | Influence of Submerged Entry Nozzle Offset on the Flow Field in a Continuous Casting Mold |
| title_full | Influence of Submerged Entry Nozzle Offset on the Flow Field in a Continuous Casting Mold |
| title_fullStr | Influence of Submerged Entry Nozzle Offset on the Flow Field in a Continuous Casting Mold |
| title_full_unstemmed | Influence of Submerged Entry Nozzle Offset on the Flow Field in a Continuous Casting Mold |
| title_short | Influence of Submerged Entry Nozzle Offset on the Flow Field in a Continuous Casting Mold |
| title_sort | influence of submerged entry nozzle offset on the flow field in a continuous casting mold |
| topic | continuous casting mold flow field numerical simulation physical simulation SEN centering |
| url | https://www.mdpi.com/2075-4701/15/6/575 |
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