湖南工业大学学报
湖南工業大學學報
호남공업대학학보
JOURNAL OF HUNAN UNIVERSITY OF TECHNOLOGY
2014年
6期
70-75
,共6页
水力学模拟实验%顶底复吹%混匀时间%最佳因素和水平
水力學模擬實驗%頂底複吹%混勻時間%最佳因素和水平
수역학모의실험%정저복취%혼균시간%최가인소화수평
hydraulic model experiment%top and bottom blowing%mixing time%the optimal factor and level
以120 t顶底复吹转炉进行水力学模拟实验,研究单顶吹条件下枪位、顶吹流量对熔池混匀时间、冲击直径和冲击深度的影响;单底吹条件下底吹流量、熔池深度和底部供气元件布置对熔池混匀时间的影响;顶底复吹条件下最佳因素和水平。结果表明:单顶吹时枪位为1000 mm时混匀时间最短;单底吹时底吹流量为750 Nm3/h时混匀时间最短,底部供气元件布置对混匀时间影响较大;顶底复吹时底吹流量对混匀时间影响最大,而枪位对混匀时间影响最小,当底部布置方式为喷孔在一条直线上对称分布时,顶吹流量为10000 Nm3/h,底吹流量为600 Nm3/h,顶枪枪位为800 mm,熔池深度为800 mm时,熔池混匀效果最佳。
以120 t頂底複吹轉爐進行水力學模擬實驗,研究單頂吹條件下鎗位、頂吹流量對鎔池混勻時間、遲擊直徑和遲擊深度的影響;單底吹條件下底吹流量、鎔池深度和底部供氣元件佈置對鎔池混勻時間的影響;頂底複吹條件下最佳因素和水平。結果錶明:單頂吹時鎗位為1000 mm時混勻時間最短;單底吹時底吹流量為750 Nm3/h時混勻時間最短,底部供氣元件佈置對混勻時間影響較大;頂底複吹時底吹流量對混勻時間影響最大,而鎗位對混勻時間影響最小,噹底部佈置方式為噴孔在一條直線上對稱分佈時,頂吹流量為10000 Nm3/h,底吹流量為600 Nm3/h,頂鎗鎗位為800 mm,鎔池深度為800 mm時,鎔池混勻效果最佳。
이120 t정저복취전로진행수역학모의실험,연구단정취조건하창위、정취류량대용지혼균시간、충격직경화충격심도적영향;단저취조건하저취류량、용지심도화저부공기원건포치대용지혼균시간적영향;정저복취조건하최가인소화수평。결과표명:단정취시창위위1000 mm시혼균시간최단;단저취시저취류량위750 Nm3/h시혼균시간최단,저부공기원건포치대혼균시간영향교대;정저복취시저취류량대혼균시간영향최대,이창위대혼균시간영향최소,당저부포치방식위분공재일조직선상대칭분포시,정취류량위10000 Nm3/h,저취류량위600 Nm3/h,정창창위위800 mm,용지심도위800 mm시,용지혼균효과최가。
Conducted a hydraulic model experiment on 120 t top-bottom combined blowing converter. Studied the impacts of lance height and top gas flowrate on the mixing time, the penetrating depth and cavity diameter under the top blowing condition and the impacts of bottom gas flowrate, bath depth and bottom tuyeres layout on the mixing time in the bottom blowing condition. Researched the optimal factor and level under the top-bottom combined blowing condition. The results show that:In top blowing conditions, 1 000 mm is the best lance height to get the shortest mixing time;In bottom blowing conditions, 750 Nm3/h is the best bottom gas flow rate and get the shortest mixing time, the bottom tuyeres layout is of great influence on mixing time, but not the more the better;In the condition of top-bottom combined blowing, the bottom gas flowrate has the greatest influence on mixing time, and the lance height have the smallest influence on mixing time. And the bath mixing result is optimal when the nozzle holes are in a symmetric distribution line, the top gas flowrate is 10 000 Nm3/h, the bottom gas flowrate is 600 Nm3/h, the lance height is 800 mm and bath depth is 800 mm.