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板坯连铸结晶器内钢液流动过程的模拟仿真 总被引:31,自引:1,他引:31
板坯连铸结晶器内钢液的流动方式对去除钢水中夹杂物,防止残渣和保护渣卷入钢水,防止注流冲刷凝固固造成漏网和拉裂很重要。本文开发了描述结晶器内三维湍流流动的数学模型和计算程序Mould1.0,对结晶器内的流动现象进行了模拟研究,观察了双侧孔浸入式水口的张角和浸入深度及浇铸速度对结晶器内流动行为的影响。计算模拟结果与实测结果进行了比较。 相似文献
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薄板坯连铸结晶器内流体流动特征的研究 总被引:2,自引:0,他引:2
在水力学模型实验的基础上,对初选的喇叭型、直通型和牛鼻子型3种超薄型水口进行结晶器流场激光测试,定量的研究直弧形截面薄板坯连铸结晶器内流体流动特征和水口出口速度分布,为进一步采用数学模型研究结晶器流场、优化伸入式水口结构和工艺参数打下基础。 相似文献
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利用Fluent软件对1650mm×220mm板坯结晶器建立了三维稳态数学模型,对三种方案条件下结晶器内钢液流动进行模拟.结果表明,结晶器的宽度对结晶器表面速度分布影响显著,随着结晶器宽度的增加,结晶器表面的速度分布越来越不均匀.表面的最大速度受到多种参数的影响,包括浸入式水口入口钢液的速度、水口出口角度和水口浸入深度等,其中入口钢液的速度影响最为显著.最优方案为:铸坯宽度1100mm,底部结构为山形和出口角度向下30°的水口,水口浸入深度120mm,流量为11.6m3·h-1,入口速度为0.8384m·s-1. 相似文献
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用水模拟的方法,对结晶器流场进行研究,选择合适、高效的连铸用水口形式,使生产顺行,并且使铸坯质量得到改善。 相似文献
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Flow instability in continuous thin slab casting moulds has been studied using a full scale water model with particle image visualization. The results show that jet impinging depth, circumfluence centre position and wave height are unsteady and periodical. The probabilities of jet impinging depth and circumfluence centre position seem to be Poisson distributions with the highest frequency near the average position. The flow pattern is asymmetrical for a short time and the phase difference of jet impinging depth, circumfluence centre position and wave height on the two sides of the mould centreline is half a period. The average jet impinging depth, average circumfluence centre position, average meniscus wave profile and the highest and lowest meniscus positions are generally symmetrical to the mould centreline. 相似文献
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为研究结晶器内钢液流场,通过对工艺参数的优化,进一步提高铸坯质量,以天津钢铁集团有限公司4#-VAI板坯连铸结晶器为原型进行水模试验,通过调节拉速、水口浸入深度,研究了结晶器内流场形态、液面波动、流场冲击深度和保护渣形貌等的变化情况。模拟试验表明,在现有参数和水口尺寸情况下,结晶器流场合理、液面渣层平稳、坯壳厚度均匀,能够满足铸坯质量要求。 相似文献
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Mathematical modelling was used to study the effect of a changed aspect ratio of a continuous casting mould on the resulting flow field in the upper part of the mould when using a swirl flow in the nozzle. Model predictions were initially compared to physical modelling data. More specifically, the predicted axial velocities were found to differ only at the most ~3 mm/s from the measured data. Thus, the model was concluded to be sound. By changing the aspect ratio of a billet mould from 1 to 3 systematically, a numerical analysis of the mould region of a billet continuous caster was performed with a novel injection concept using swirling flow in the immersion nozzle in order to control the heat and mass transfer in the continuous casting mould. The predictions showed that the aspect ratio of the mould has a large influence on the flow field in the upper part of the mould. The meniscus temperature was found to increase with an increasing aspect ratio from 1 to 2, but the maximum temperature was found to decrease when the aspect ratio was increased above 2. 相似文献
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