昆明理工大学学报(自然科学版)
昆明理工大學學報(自然科學版)
곤명리공대학학보(자연과학판)
JOURNAL OF KUNMING UNIVERSITY OF SCIENCE AND TECHNOLOGY(SCIENCE AND TECHNOLOGY)
2013年
6期
1-5
,共5页
黄世弘%雷霆%韩丰霞%周林
黃世弘%雷霆%韓豐霞%週林
황세홍%뢰정%한봉하%주림
挂渣层%温度%钛铁矿%熔炼
掛渣層%溫度%鈦鐵礦%鎔煉
괘사층%온도%태철광%용련
freeze lining%temperature%ilmenite%smelting
分析了炉内的工艺温度和渣中MgO的含量随加热时间的变化特征.结果表明DC炉内挂渣层厚度主要与炉内的工艺温度和渣中MgO的含量有关.整个实验过程的工艺温度控制在1700~1750℃范围内,渣中MgO质量含量控制到小于1.8%时,可有效避免炉壁烧穿.随工艺温度的增加,渣中MgO质量含量增加,挂渣层减薄.研究熔炼过程中DC炉内挂渣层厚度变化对熔炼工艺的稳定控制和生产效率的提高具有重要的意义.
分析瞭爐內的工藝溫度和渣中MgO的含量隨加熱時間的變化特徵.結果錶明DC爐內掛渣層厚度主要與爐內的工藝溫度和渣中MgO的含量有關.整箇實驗過程的工藝溫度控製在1700~1750℃範圍內,渣中MgO質量含量控製到小于1.8%時,可有效避免爐壁燒穿.隨工藝溫度的增加,渣中MgO質量含量增加,掛渣層減薄.研究鎔煉過程中DC爐內掛渣層厚度變化對鎔煉工藝的穩定控製和生產效率的提高具有重要的意義.
분석료로내적공예온도화사중MgO적함량수가열시간적변화특정.결과표명DC로내괘사층후도주요여로내적공예온도화사중MgO적함량유관.정개실험과정적공예온도공제재1700~1750℃범위내,사중MgO질량함량공제도소우1.8%시,가유효피면로벽소천.수공예온도적증가,사중MgO질량함량증가,괘사층감박.연구용련과정중DC로내괘사층후도변화대용련공예적은정공제화생산효솔적제고구유중요적의의.
The thickness of freeze lining determines the stability of the titanium slag smelting process in DC arc furnace. The variation of processing temperature and MgO content with heating time are analyzed. Results show that the processing temperature of the furnace and the MgO content have a significant effect on the thickness of freeze lining during titanium slag smelting in DC arc furnace. When the experiment processing temperature is controlled in the range of 1 700~1 750℃,and MgO content in slag controlled less than 1.8 %,the accident of DC furnace burnthrough can be avoided effectively. With the rise of processing temperature,MgO content in slag increases,and the thickness of freeze lining decreases. Studies on the thickness control of freeze lining during ti-tanium slag smelting in DC arc furnace can help better control the smelting process and improve the production efficiency.
