Visa Isteri , Katja Ohenoja , Christiane Rößler , Holger Kletti , Pekka Tanskanen , Mirja Illikainen , Theodore Hanein , Timo Fabritius
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引用次数: 0
摘要
利用冶金工业的副产品,在实验室和半工业规模上对 AYF(铝铁氧铁)熟料的生产进行了测试:AOD渣、钢包渣和方镁石渣。使用氩氧脱碳渣中的氟作为矿化剂,可以生产出叶蜡石。在实验室演示成功后,熟料生产被扩大到半工业试验。结果发现,在半工业试验中没有形成矾土的原因是,特定批次的氩氧脱碳渣没有达到设计的矾土形成矿化效果。这项研究表明,利用工业副产品(在本例中为 AOD 炉渣)中的氟矿化物,可在 1260 °C 的实验室规模下生产出明矾石。然而,利用副产品进行微妙的反应需要详细确定炉渣的性质,因为同一来源的不同炉渣会产生不同的熟料化学成分和矿物相。
The effect of slag variability in the attempted manufacture of AYF (alite-ye'elimite-ferrite) cement clinker at both laboratory and pilot scale
The production of AYF (alite-ye'elimite-ferrite) clinker was tested at laboratory and semi-industrial scale using by-products from the metallurgical industry: AOD slag; ladle slag; and fayalitic slag. Alite could be produced with ye'elimite using fluorine originating from AOD (argon oxygen decarburisation) slag as a mineraliser. After a successful laboratory demonstration, the clinker production was scaled to a semi-industrial trial. It was discovered that the reason for the absence of alite formation in a semi-industrial demonstration was that the AOD slag from the specific batch did not perform the designed mineralisation effect for alite formation. This study demonstrates that alite-ye'elimite can be produced at 1260 °C at laboratory scale by using fluorine mineralisation originating from an industrial by-product – in this case, AOD slag. However, the utilisation of by-products for delicate reactions requires detailed determination of the properties of the slag, as the variability from the same source yields different clinker chemistries and mineral phases.
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