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金属液在旋转电磁搅拌器作用下的流动分析 总被引:4,自引:1,他引:4
对自行研制的电磁搅拌器中金属液的电磁场和流场进行数值模拟,并进行实验验证。结果表明:在旋转磁场搅拌器作用下,金属液中除存在横截面上的旋转离心流动外,还存在着纵向的大环流,但二者速度不同,前者比后者高出一个数量级:金属液表面的磁感应强度风与电流频率成反比,与输入的电压成正比:金属液所受电磁力的最大值与磁感应强度B0的平方成正比,与频率的n次方成反比,其中1/2≤n≤3/2:n与金属液的电阻率有关,电阻率越小则n越小:对于纯铝n为1/2,对于纯锡和纯铅n为1;金属液的转速与磁感应强度R0成正比,与金属液密度的平方根成反比。 相似文献
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In order to find the ways to improve the elimination efficiency with high frequency magnetic field, a mathematical model of electromagnetic elimination (EME) in the tubule with high frequency magnetic field was set up. The calculated results show that by ignoring the flow of molten metal, when the surface magnetic induction intensity of the metal (B0) is 0.03 T and the diameter of the tubule is 8 mm, the non-metallic inclusions with 30 μm diameter can be wiped offin 7 s from the center of the molten aluminum, whereas the elimination time of the 5 μm non-metallic inclusions is more than 240 s. When B0 is 0.03 T, the diameter of the tubule is 8 mm and elimination time is more than 30 s, the elimination efficiency of 5μm, 10μm and 30 μm non-metallic inclusions is about 60%, 90% and 100%, respectively, the elimination efficiency increases with the decreasing diameter of the tubule. It can be concluded that increasing the magnetic induction intensity or decreasing the diameter of the tubule can decrease the elimination time and improve the elimination efficiency in EME with high frequency magnetic field. 相似文献
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某发电厂汽轮机采用N200-130/535/535型、超高压、中间再热、三缸三排汽凝汽式汽轮机,由半挠性联轴器直接带动发电机运行。机组射水系统的射水泵型号为14SH-19,由哈尔滨汽轮机厂制 相似文献
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