中国有色金属学报
中國有色金屬學報
중국유색금속학보
THE CHINESE JOURNAL OF NONFERROUS METALS
2014年
4期
1056-1062
,共7页
陈霖%杨天足%刘伟锋%张杜超%宾舒%宾万达
陳霖%楊天足%劉偉鋒%張杜超%賓舒%賓萬達
진림%양천족%류위봉%장두초%빈서%빈만체
高铅渣%液态还原%熔池熔炼%金属分布
高鉛渣%液態還原%鎔池鎔煉%金屬分佈
고연사%액태환원%용지용련%금속분포
high lead slag%liquid reduction%bath smelting%metal distribution
以铅精矿氧化熔炼产生的高铅渣为原料,通过静态实验研究其熔池熔炼还原过程。使用X射线衍射(XRD)和等离子体发射光谱(ICP)对反应原料及产物进行分析,探讨铁硅比、钙硅比、还原煤用量、还原温度、还原时间等对有价金属元素(Pb、Cu、Zn)在高铅渣还原产物中分布的影响。结果表明:静态实验中的Pb、Cu主要进入金属相,而Zn则基本进入还原渣中。最有利于有价金属综合回收的工艺条件如下:铁硅比1.25,钙硅比0.8,还原时间为60 min,还原温度为1200℃,还原剂的用量为理论量的1.3倍。
以鉛精礦氧化鎔煉產生的高鉛渣為原料,通過靜態實驗研究其鎔池鎔煉還原過程。使用X射線衍射(XRD)和等離子體髮射光譜(ICP)對反應原料及產物進行分析,探討鐵硅比、鈣硅比、還原煤用量、還原溫度、還原時間等對有價金屬元素(Pb、Cu、Zn)在高鉛渣還原產物中分佈的影響。結果錶明:靜態實驗中的Pb、Cu主要進入金屬相,而Zn則基本進入還原渣中。最有利于有價金屬綜閤迴收的工藝條件如下:鐵硅比1.25,鈣硅比0.8,還原時間為60 min,還原溫度為1200℃,還原劑的用量為理論量的1.3倍。
이연정광양화용련산생적고연사위원료,통과정태실험연구기용지용련환원과정。사용X사선연사(XRD)화등리자체발사광보(ICP)대반응원료급산물진행분석,탐토철규비、개규비、환원매용량、환원온도、환원시간등대유개금속원소(Pb、Cu、Zn)재고연사환원산물중분포적영향。결과표명:정태실험중적Pb、Cu주요진입금속상,이Zn칙기본진입환원사중。최유리우유개금속종합회수적공예조건여하:철규비1.25,개규비0.8,환원시간위60 min,환원온도위1200℃,환원제적용량위이론량적1.3배。
The bath smelting reduction process of high lead slag, which is generated in the lead concentrate smelting process, was studied in static experiments. The raw material and the products of the process were analyzed using X-ray diffraction (XRD) and inductively coupled plasma (ICP). The influence of technical parameters, including iron to silica ratio, calcium oxide to silica ratio, dosage of reductant, reduction temperature and reduction time, on the distribution of valuable metals between the products of the reduction process was investigated. The results reveal that Pb and Cu mainly enter the metal phase, while Zn mainly enters the slag phase. The best process parameters for comprehensive metal recovery are that iron to silica ratio is 1.5, calcium oxide to silica ratio is 0.8, reduction temperature is 1200℃, reduction time is 60 min, dosage of reductant is 1.3 times of the stoichiometric value.