中国有色金属学报
中國有色金屬學報
중국유색금속학보
THE CHINESE JOURNAL OF NONFERROUS METALS
2015年
1期
190-196
,共7页
王磊%郭培民%庞建明%赵沛
王磊%郭培民%龐建明%趙沛
왕뢰%곽배민%방건명%조패
钼精矿%真空分解%热力学%硫磺
鉬精礦%真空分解%熱力學%硫磺
목정광%진공분해%열역학%류광
molybdenum concentrate%vacuum decomposition%thermodynamic%sulfur
对钼精矿真空分解工艺中的关键性环节进行了热力学分析,并进行了真空分解试验验证。结果表明:控制炉内压力在低于100Pa、分解温度在1773~2073 K范围,实现钼精矿分解得到金属Mo完全可能。钼精矿中As2S3、SnS2、PbS直接以硫化物形式升华去除,而Bi2S3则更容易分解为Bi蒸气和S蒸气,直接以气态形式去除。CuS在较低温度下容易分解为Cu2S和S蒸气,而要使Cu2S分解为Cu蒸气将Cu去除,则需要更高的温度。硫磺可以通过冷凝的方式回收,硫磺回收的温度区间为392~490 K。通过试验得到Mo含量达到93.69%的金属钼球和S含量达到98.6%的硫磺产品,金属Mo中P、S、Cu、As、Pb和Sn等杂质元素较少。
對鉬精礦真空分解工藝中的關鍵性環節進行瞭熱力學分析,併進行瞭真空分解試驗驗證。結果錶明:控製爐內壓力在低于100Pa、分解溫度在1773~2073 K範圍,實現鉬精礦分解得到金屬Mo完全可能。鉬精礦中As2S3、SnS2、PbS直接以硫化物形式升華去除,而Bi2S3則更容易分解為Bi蒸氣和S蒸氣,直接以氣態形式去除。CuS在較低溫度下容易分解為Cu2S和S蒸氣,而要使Cu2S分解為Cu蒸氣將Cu去除,則需要更高的溫度。硫磺可以通過冷凝的方式迴收,硫磺迴收的溫度區間為392~490 K。通過試驗得到Mo含量達到93.69%的金屬鉬毬和S含量達到98.6%的硫磺產品,金屬Mo中P、S、Cu、As、Pb和Sn等雜質元素較少。
대목정광진공분해공예중적관건성배절진행료열역학분석,병진행료진공분해시험험증。결과표명:공제로내압력재저우100Pa、분해온도재1773~2073 K범위,실현목정광분해득도금속Mo완전가능。목정광중As2S3、SnS2、PbS직접이류화물형식승화거제,이Bi2S3칙경용역분해위Bi증기화S증기,직접이기태형식거제。CuS재교저온도하용역분해위Cu2S화S증기,이요사Cu2S분해위Cu증기장Cu거제,칙수요경고적온도。류광가이통과냉응적방식회수,류광회수적온도구간위392~490 K。통과시험득도Mo함량체도93.69%적금속목구화S함량체도98.6%적류광산품,금속Mo중P、S、Cu、As、Pb화Sn등잡질원소교소。
The key steps of thermal decomposition process of molybdenum concentrate in vacuum were thermodynamically analyzed and verified by the vacuum decomposition experiment. The results show that the thermal decomposition process of molybdenum concentrate in vacuum is feasible when the temperature is in the range of 1773?2073 K and the furnace pressure is less than 100Pa. PbS, SnS2 and As2S3 in the molybdenum concentrate can directly volatile into gas, and Bi2S3 is more likely to decompose to Bi and S vapors and volatilize directly, and CuS decomposes to Cu2S easily, but Cu2S is difficult to decompose unless it is treated under a higher temperature and a lower pressure. The calculated suitable temperature range for sulfur recovery in this process is 392?490 K. The Mo content of molybdenum metal ball obtained by experiments is 93.69% and the S content of sulfur products reaches 98.6%. The impurity elements, such as P, S, Cu, As, Pb, Sn, in the molybdenum products are very low.
