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为综合利用硫酸烧渣中的铁,采用浮选—焙烧工艺对硫酸烧渣原料硫精矿进行提纯除杂试验研究,考察了磨矿细度、抑制剂、捕收剂等对试验指标的影响。结果表明:在磨矿细度-0.074 mm占70%条件下,浮选作业添加高效抑制剂抑制脉石矿物,采用丁基黄药作为捕收剂,提高了精矿品位;闭路浮选试验获得的精矿进一步焙烧,通过控制适宜的焙烧条件,获得的硫酸烧渣铁品位达到65%以上,含硫低于0.4%,可作为铁精矿直接销售。该工艺能综合回收铁,使硫酸烧渣资源得到充分利用,可为企业带来显著的经济效益。 相似文献
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以高铁高铝、硅氰化渣为原料,试验探讨了回收渣中铁的工艺,并运用XRD、SEM和EDS等分析铁回收机理。结果表明:氰化渣以赤铁矿为主,并与铝、硅等杂质化合物共生,呈相互包裹的复杂嵌布关系,采用常规的焙烧-磁选工艺不能有效地回收铁。采用添加复合添加剂的焙烧-水浸-磁选工艺,当氰化渣粒度为<74μm比例占85%,焙烧温度750℃,氰化渣:活性炭:添加剂A:添加剂B(质量比)=100:10:3:10,水浸温度60℃,水浸液固比5:1,水浸时间5min,搅拌速度20r/min,激磁电流为2A时,可获得铁精矿全铁品位为53.82%、回收率为76.55%的选别指标。复合添加剂可与大部分铝、硅等杂质化合物反应,生成复杂可溶性和难溶非磁性物质,水洗及磁选后可去除,使铁的品位和回收率提高。 相似文献
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硫酸渣球团焙烧试验研究 总被引:4,自引:0,他引:4
以大冶硫酸渣为原料,配加大冶铁矿自产膨润土,通过实验室内造球和静态焙烧试验,确定硫酸渣造球的可行性。试验结果表明,硫酸渣球团在1250~1300℃的焙烧温度下,可达到厂家要求。 相似文献
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在1 025~1 175℃模拟硫酸渣的氯化焙烧过程,考察了氧化铅的氯化焙烧动力学行为。结果表明,在硫酸渣体系中,氧化铅的氯化反应受扩散控制,表观活化能为14.19kJ/mol。 相似文献
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采用两次焙烧工艺从某复杂低汞硒渣中富集分离回收硒、汞。首先将该硒汞渣在不制粒情况下,800~850℃空白焙烧1.5h,99%以上的硒、汞挥发进入烟尘而富集,且焙烧渣中汞含量不足0.01%。富集硒、汞的烟尘与石灰(CaO加入量为理论值1.25倍)制粒后在650℃焙烧90 min,固硒率达到99.5%,汞脱除率达到99.41%。 相似文献
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The effect of biochar substituted for anthracite as reductant on magnetizing-roasting pyrite cinder was investigated.The key of magnetizing-roasting is the gasification reaction between reductants and CO2.Since biochar could react with CO2 more rapidly at lower temperature,the reactivity of biochar is better than that of anthracite.The gasification of biochar could produce reducing condition ofφCO/(φCO+φCO2)about 10%-20% between 700-800 ℃,which is in accord with the atmosphere and temperature of Fe2O3 reduction.So it is beneficial to the reduction of iron mineral of pyrite cinder.Compared with anthracite,biochar could decrease the roasting temperature from825 to 750 ℃ and roasting time from 20 to 15min,which shows that a better effect of magnetization could be obtained in the condition of lower temperature and shorter time.Using biochar as reductant,iron concentrate extracted from pyrite cinder as about 64%iron grade could be produced,and the recovery is over 90% under the condition of above 90% grinding particle less than 0.045 mm and magnetic intensity of 0.124-0.194 T. 相似文献
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采用氯化焙烧工艺从硫铁矿烧渣球团中综合回收金、银、铜等有价金属,考察了造球、窑温、停留时间对金属挥发率以及物料和金属平衡的影响。结果表明,物料在1 250℃停留1.83h的最佳条件下,各金属挥发率为:Au 95.6%、Ag 52.5%、Cu 73.1%、Pb 93.9%、Zn 75.2%。球团中铜、铅、锌含量均小于0.1%,球团强度4.06.5kN。 相似文献
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Process Optimization and Reaction Mechanism of Removing Copper From an Fe-Rich Pyrite Cinder Using Chlorination Roasting 总被引:1,自引:0,他引:1
The aim is to remove copper from a pyrite cinder by optimizing the chlorination roasting process using response surface methodology (RSM) and the reaction mechanism of chlorination roasting based on thermodynamic calculation was discussed. A quadratic model was suggested by RSM to correlate the key parameters, namely, dosage of chlorinating agent, roasting temperature and roasting time to the copper volatilization ratio. The results indicate that the model is well consistent with the experimental data at a correlation coefficient (R2) of 0.95, and the dosage of chlorinating agent and roasting temperature both have significant effects on the copper volatilization ratio. However, a roasting temperature exceeding 1170°C decreases the volatilization ratio. The optimum conditions for removing copper from the cinder were identified as chlorinating agent dosage at 5%, roasting temperature at 1155.10 °C and roasting time of 10 min; under such a condition, a copper volatilization ratio of 95. 16% was achieved from the cinder. Thermodynamic calculation shows that SiO2 in the pellet plays a key role in the chlorine release from calcium chloride, and the chlorine release reactions cannot occur without it. 相似文献
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从砷华生产废渣中回收铁 总被引:1,自引:0,他引:1
砷华生产废渣中Fe质量分数达45.6%,氧化焙烧脱硫后,可采用还原焙烧-磁选方法回收其中的铁。在焙烧温度550℃,焙烧时间30 min,废渣粒度97μm条件下,铁精砂回收率63.7%,其中Fe质量分数为65.2%。 相似文献
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硫酸渣配加磁铁矿制备氧化球团试验研究 总被引:3,自引:0,他引:3
对硫酸渣配加33%的磁铁矿进行了球团试验研究,研究表明:无预处理时所得生球质量极差,润磨是改善生球质量的有效手段,在添加1.0%膨润土,润磨时间4min,润磨水分10%,造球时间10min的条件下可得到满足生产要求的生球;该生球在链篦机-回转窑模拟试验中,预热温度900℃、时间6min,焙烧温度1220℃、时间10min的条件下,可得物理强度及化学组成均满足高炉要求的球团矿,且其脱硫率高,冶金性能良好。结果证明:硫酸渣配加一定磁铁矿能生产出优质的球团矿供高炉使用。 相似文献