黄金科学技术
黃金科學技術
황금과학기술
GOLD SCIENCE AND TECHNOLOGY
2015年
2期
98-102
,共5页
戴伟明%雷禄%范庆丰%王瑶
戴偉明%雷祿%範慶豐%王瑤
대위명%뢰록%범경봉%왕요
脆硫铅锑矿%铅锑分离%冶炼工艺%富氧强化熔炼
脆硫鉛銻礦%鉛銻分離%冶煉工藝%富氧彊化鎔煉
취류연제광%연제분리%야련공예%부양강화용련
jamesonite%separation of lead-antimony%smelting process%oxygen-enriched strengthening smelting
脆硫铅锑矿是一种多金属复合硫化矿,一般的选矿技术很难将铅锑分离,常采用冶炼技术使其分离。自20世纪60年代以来,冶金工作者先后研发了多种工艺对铅锑进行分离,其中火法、氯化水解法和硫化钠浸出法等工艺投入了生产使用。随着冶炼技术的迅速发展,现有冶炼工艺不能满足当前需求,其局限性逐步显现。简述了脆硫铅锑矿的主要特点,针对氯化水解法、硫化钠浸出法和火法冶炼脆硫铅锑矿的工艺特点及存在问题,提出富氧强化熔炼法冶炼单铅矿及脆硫铅锑矿与单铅矿混合冶炼的最新工艺,指出今后应加强富氧强化熔炼工艺单独处理脆硫铅锑矿的研发力度。
脆硫鉛銻礦是一種多金屬複閤硫化礦,一般的選礦技術很難將鉛銻分離,常採用冶煉技術使其分離。自20世紀60年代以來,冶金工作者先後研髮瞭多種工藝對鉛銻進行分離,其中火法、氯化水解法和硫化鈉浸齣法等工藝投入瞭生產使用。隨著冶煉技術的迅速髮展,現有冶煉工藝不能滿足噹前需求,其跼限性逐步顯現。簡述瞭脆硫鉛銻礦的主要特點,針對氯化水解法、硫化鈉浸齣法和火法冶煉脆硫鉛銻礦的工藝特點及存在問題,提齣富氧彊化鎔煉法冶煉單鉛礦及脆硫鉛銻礦與單鉛礦混閤冶煉的最新工藝,指齣今後應加彊富氧彊化鎔煉工藝單獨處理脆硫鉛銻礦的研髮力度。
취류연제광시일충다금속복합류화광,일반적선광기술흔난장연제분리,상채용야련기술사기분리。자20세기60년대이래,야금공작자선후연발료다충공예대연제진행분리,기중화법、록화수해법화류화납침출법등공예투입료생산사용。수착야련기술적신속발전,현유야련공예불능만족당전수구,기국한성축보현현。간술료취류연제광적주요특점,침대록화수해법、류화납침출법화화법야련취류연제광적공예특점급존재문제,제출부양강화용련법야련단연광급취류연제광여단연광혼합야련적최신공예,지출금후응가강부양강화용련공예단독처리취류연제광적연발력도。
Jamesonite is a kind of metal composite sulfide ore,and it is difficult to separate lead-antimony applying currently processing technology,instead,smelting technology is generally used for lead antimony separation.Since the 1960s,metallurgical researchers have developed a variety of crafts to separation of lead antimony,such as smelting,chlorization hydrolysis and sodium sulfide leaching method,etc.However,with the rapid development of smelting technology,the existing technologies can’t meet today’s development and the limitations gradually.In this review,we summarized the main characters of the jamesonite,then process characteristics and the existing problems of the mentioned methods were briefly addressed.Moreover,we analyzed the limitation of sulfur lead antimony smelting process,meanwhile,the oxygen-enriched strengthening smelting method of smelting single lead or single lead as well as brittle mixed lead antimony smelting sulfur latest technology were introduced.In addition,we mentioned that oxygen-enriched strengthening smelting process should be strengthened in the future.