Numerical and Experimental Analysis of Flow Phenomenon in Centrifugal Flow Tundish
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概要
- 論文の詳細を見る
Fluid flow phenomenon in Centrifugal Flow (CF) tundish is investigated using water modeling and numerical simulation techniques. The effect of the dam spacing and rotation speed on the flow structure has been analyzed in detail. Results reveal that the bias flow, originating from the rotary outflow, leads to the formation of transversal circulation behind the dam. Such transversal flow can effectively diminish the conventional dead volume. Meanwhile, small dam spacing helps to produce a large-scale transversal circulation, and thus the prolonged flow path and relatively low velocity results in an increased plug volume. With the increase of dam spacing, the intensity of transversal circulation decreases and the increased fluid velocity causes a minished plug volume. The highest ratio of plug to dead volume is obtained under the dam spacing when transversal circulation is strongest. Furthermore, under lower magnetic intensities, the weaker fluid momentum leads to relatively large dead volume. With the increasing of magnetic intensity, the fluid mixing becomes better. However, much larger magnetic intensity will lead to decreased ratio of plug to dead volume. Therefore, a medium rotation speed (around 30 r/min) should be recommended.
- 社団法人 日本鉄鋼協会の論文
- 2009-10-15
著者
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Wang Yun
Shanghai Key Laboratory Of Modern Metallurgy & Material Processing Shanghai University
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ZHONG Yunbo
Shanghai Key Laboratory of Modern Metallurgy & Material Processing, Shanghai University
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WANG Baojun
Shanghai Key Laboratory of Modern Metallurgy & Material Processing, Shanghai University
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LEI Zuosheng
Shanghai Key Laboratory of Modern Metallurgy & Material Processing, Shanghai University
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REN Weili
Shanghai Key Laboratory of Modern Metallurgy & Material Processing, Shanghai University
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REN Zhongming
Shanghai Key Laboratory of Modern Metallurgy & Material Processing, Shanghai University
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Ren Weili
Department Of Materials Science And Engineering Shanghai Enhanced Laboratory Of Ferro-metallurgy Sha
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Zhong Yunbo
Department Of Materials Science And Engineering Shanghai Enhanced Laboratory Of Ferro-metallurgy Sha
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Wang Baojun
Shanghai Key Laboratory Of Modern Metallurgy & Material Processing Shanghai University
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Lei Zuosheng
Shanghai Key Laboratory Of Modern Metallurgy & Material Processing Shanghai University
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Ren Zhongming
Department Of Materials Science And Engineering Shanghai Enhanced Laboratory Of Ferro-metallurgy Sha
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Ren Zhongming
Department Of Materials Science And Engineering Shanghai University
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