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作 者:田罗林 岳峰[1] 吴华杰[1] 李瑛 马忠存 李彬
机构地区:[1]北京科技大学冶金工程研究院,北京100083 [2]北满特殊钢有限公司,齐齐哈尔161041
出 处:《特殊钢》2014年第5期12-14,共3页Special Steel
基 金:中央高校基本科研业务费专项资金(FRF-TP-12138A)
摘 要:以钢厂100 t钢包为原型,根据相似原理模型与原型1:3.5的比例建立水模型。试验了对应实际吹气量31~237 L/min不同位置单喷嘴和双喷嘴吹气对卷渣情况的影响,发现原吹气孔位置(距钢包中心约0.45R)单喷嘴、距钢包中心0.6R位置单喷嘴、原吹气孔位置(约0.45R)双喷嘴和距中心0.6R位置双喷嘴吹气临界卷渣气量分别为113、93、31、82 L/min,因此实际精炼时软吹采用单喷嘴吹气,合金化阶段用双喷嘴吹气为宜。回归分析得出,单喷嘴吹气时裸露区直径D(/mm)与底吹气量Q/(L·min^(-1))的关系式D=43.333Q+47.5(0.6<Q<4.6)。According to the prototype of a 100 t ladle at steelworks and based on geometric similarity principle, a water model with model and prototype ratio 1 : 3.5 is established. The effect of different blowing position of single nozzle and double nozzles corresponding real gas blowing rate 31 L/min to 237 L/min on conditions of slag entrapment has been tested. It is found that the critical slag entrapment blowing gas rate for the original blowing position ( about distance from ladle center 0. 45R) single nozzle, position distance from center of ladle 0. 6R single nozzle, original blowing position ( about O. 45R) double nozzles and position distance from center of ladle 0. 6R double nozzles gas blowing is respectively 113, 93, 31 and 82 L/min, therefore during real refining process it is available to using single nozzle blowing for soft gas blowing and to using double nozzles blowing for alloying stage. By regression analysis the relation formula between diameter of single nozzle blowing exposed area D(/mm) and bottom gas blowing rate Q/( L · min^-1 ) is D =43. 333Q +47. 5, as o. 6 〈 Q 〈4. 6.
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