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1 INTRODUCTION Bauxite porcelain is a novel “K2O–Al2O3–SiO2” system ceramic by using sintered bauxite, clay and potash feldspar and albite as the main raw materials with the Al2O3’s content of 50%~60(massfraction). Compared to the traditional“K2O–Al2O3–SiO2” feldspar porcelain by using quartz, bolus alb and potash feldspar and albite as the main raw materials, the bauxite porcelain possesses such advantages as high mechanical strength, excellent electrical insula- tion prop… 相似文献
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Effects of ultrasonic on desulfurization ratio from bauxite water slurry (BWS) electrolysis in NaOH solution were examined under constant current. The results indicated that ultrasonic improved the desulfurization ratio at high temperatures because of the diffusion and transfer of oxygen gas in electrolyte. However, due to the increase in oxygen gas emission, ultrasonic could not improve the desulfurization ratio obviously at low temperatures. Additionally, the particle size of bauxite became fine in the presence of ultrasonic, indicating that the mass transfer of FeS2 phase was improved. According to the polarization curves, the current density increased in the presence of ultrasonic, indicating that the mass transfer of liquid phase was improved. The apparent activation energy (AAE) of electrode reaction revealed that ultrasonic did not change the pathway of water electrolysis. However, ultrasonic changed the pathway of BWS electrolysis, converting indirect oxidation into direct oxidation. The AAE of BWS electrolysis in the presence of ultrasonic was higher than that in the absence of ultrasonic. And the low AAEs (less than 20 kJ/mol) clearly indicated the diffusion control during BWS electrolysis reaction. 相似文献
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采用水热法,对天然铝土矿进行改性,获得高比表面积的铝土矿载体(Bauxite)。用等体积浸渍法制备了不同Pt含量的Pt/bauxite和1.0%Pt/Al2O3催化剂,以CO氧化为探针反应,考察了催化剂性能。采用XRF、XRD、低温N2-物理吸附、H2-TPR以及CO-TPD等对载体和催化剂样品进行表征。结果表明:Pt/bauxite催化剂具有优异的CO氧化性能,特别是当反应温度为200℃时,催化剂1.0%Pt/bauxite的CO转化率为93.4%,而1.0%Pt/Al2O3CO转化率仅为9.4%。其原因是铝土矿含有的Fe2O3是CO氧化反应的催化剂,且Fe2O3与负载的Pt之间发生了相互作用,降低了Pt和Fe2O3还原温度,提高了对CO的吸附能力且降低了CO的脱附温度,进而提高了催化剂的CO氧化反应性能。 相似文献
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两性聚丙烯酰胺乳液选矿剂的合成及絮凝作用 总被引:2,自引:0,他引:2
两性聚丙烯酰胺乳液选矿剂的合成及絮凝作用;两性聚丙烯酰胺;乳液选矿剂;铝土矿赤泥;絮凝机理 相似文献
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研究了某低品位复杂铝土矿中高岭石与一水硬铝石矿物相分离的传统选择性溶剂(HF溶液)的不适应性问题。物质组成分析指出,由于此类物料中伴生有含钠(钠长石)和含镁(铁质角闪石)等脉石类矿物,所以在用HF溶液浸取高岭石的反应过程中,与Al 3+同步进入浸出液中的Na+和Mg2+等,又与F-反应,形成NaMgAlF6·xH2O次生沉淀,且其与一水硬铝石矿物相一并留于余渣中,而直接干扰测定。因此,对H2SO4溶液作为选择性溶剂的可替代性问题进行了验证。结果表明:试样于500℃预焙烧后,用H2SO4(12mol/L)溶液沸水浴浸取分离高岭石,于余渣中测定一水硬铝石,可获得比较满意的结果。同时,对钠长石等其它含铝矿物干扰测定的校正方法问题,也进行了探讨。 相似文献
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The comparison of the bayer process wastes on the base of chemical and physical properties 总被引:1,自引:0,他引:1
A. Atasoy 《Journal of Thermal Analysis and Calorimetry》2007,90(1):153-158
In this work, the waste materials from the Aughinish (in Ireland) and the Seydisehir (formerly ETI Aluminium Inc. in Turkey)
alumina plants were compared on the base of chemical and the physical properties using thermal analysis, XRD and SEM techniques.
The results were shown that there are big differences in the chemical compositions of the red mud waste as well as the physical
properties. It was found that the Seydisehir red mud is more feasible for recovery of iron, but the Aughinish sample contains
more titanium oxide than the Seydisehir one. There are also some variations in the Bayer process of the plants since the calcium
and sodium oxides of the waste were different percentages. 相似文献
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采用水热法对天然铝土矿进行改性,获得高比表面积的铝土矿(bauxite)载体.用等体积浸渍法制备了Ru含量为1.0%-4.0%(质量分数,下同)的Ru/bauxite催化剂和Ru含量为2.0%的Ru/Al2O3催化剂,以水煤气变换反应为探针反应,考察了催化剂性能.利用X射线荧光元素分析(XRF)、X射线粉末衍射(XRD)、低温N2物理吸附、H2程序升温还原(H2-TPR)以及CO程序升温脱附(CO-TPD)等对载体和催化剂样品进行表征.结果表明,不同Ru含量的Ru/bauxite催化剂具有优异的水煤气变换制氢性能,优于Ru/Al2O3催化剂.其原因是铝土矿本身含有的Fe2O3与负载的Ru之间发生了相互作用,降低了Fe2O3还原温度,提高了对CO的吸附能力且降低了CO的脱附温度,进而提高了催化剂的水煤气变换反应性能. 相似文献
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脱硫是高硫铝土矿资源综合利用的前提,开展高硫铝土矿焙烧反应特征研究是焙烧脱硫技术开发的基础。对含硫量为4.32%的贵州高硫铝土矿开展热分析和傅里叶变换红外(FTIR)光谱分析联用试验,采用TG,DTG,DSC和FTIR联用方法,综合分析、研究了高硫铝土矿在氧化焙烧过程中发生反应的种类、反应历程和主要特征,并讨论了悬浮态脱硫新工艺的开发。采用一种改进的红外光谱分析方法,从混合气体产物的红外吸收光谱中分离出气体组分的流量特征,从而将高硫铝土矿的脱水和脱硫过程分离并进行分析。结果表明,主要反应是一水硬铝石脱水、黄铁矿氧化脱硫和方解石分解,释放的气体产物分别是H2O(g),SO2和CO2。一水硬铝石脱水为单步反应,温度范围为380~580 ℃,黄铁矿脱硫为两步反应,温度范围为388.0~574 ℃,方解石的分解的温度范围是700~860 ℃。高硫铝土矿脱硫的放热能够直接补偿脱水的吸热,悬浮态脱硫适宜的操作温度为580~650 ℃。研究结果为高硫铝土矿悬浮态脱硫技术开发提供基础数据参考。 相似文献