鞍钢技术
鞍鋼技術
안강기술
AISC TECHNIQUES
2014年
4期
47-50
,共4页
徐延浩%王宏明%王晓峰%高学中%常丽芬
徐延浩%王宏明%王曉峰%高學中%常麗芬
서연호%왕굉명%왕효봉%고학중%상려분
转炉%含铁资源%回收利用
轉爐%含鐵資源%迴收利用
전로%함철자원%회수이용
converter%containing ferrous resources%recovery
介绍了鞍钢100 t转炉回收利用富矿、烧结矿、铁碳复合球、渣道回收渣铁、脱硫喷溅渣铁等含铁资源的工艺实践。通过采取优化转炉含铁材料的加料控制、过程控制方式等措施,含铁资源回收率可达30%以上,单炉可节省供氧200~300 m3。
介紹瞭鞍鋼100 t轉爐迴收利用富礦、燒結礦、鐵碳複閤毬、渣道迴收渣鐵、脫硫噴濺渣鐵等含鐵資源的工藝實踐。通過採取優化轉爐含鐵材料的加料控製、過程控製方式等措施,含鐵資源迴收率可達30%以上,單爐可節省供氧200~300 m3。
개소료안강100 t전로회수이용부광、소결광、철탄복합구、사도회수사철、탈류분천사철등함철자원적공예실천。통과채취우화전로함철재료적가료공제、과정공제방식등조시,함철자원회수솔가체30%이상,단로가절성공양200~300 m3。
The steelmaking practice of recovery containing ferrous resources such as rich ores, sinters, iron-carbon composite pellets, scrap iron in slag recycled from slag pocket and splashed slag iron in desulfurization by the 100 t converter in Angang is introduced. By taking such mea-sures as optimizing the charging control and process control of these containing ferrous materials, the recovery rate of the containing ferrous resources is more than 30% and oxygen supply can be saved 200~300 m3 per heat.