Evaluation of coal gangue and ash for calcined kaolin preparation

2013 International Conference on Materials for Renewable Energy and Environment Pub Date : 2013-08-01 DOI:10.1109/ICMREE.2013.6893780

P. Zhu, Zhenglun Shi, Leming Cheng, M. Fang

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Abstract

For comprehensive utilization of solid waste, coal gangue, slag of CFB and washed fly ash provided by a coal mine were evaluated on their potential as calcined kaolin. Studies on these samples include the determination of chemical composition by ICP, the analysis of mineralogical construction by XRD, orthogonal experiments of iron leaching by acids and decarburization by calcination. Results show that the chemical compositions of three samples are very close to the kaolinite and their mass ratios of SiO2 to Al2O3 are all about 1.4:1. The major crystalline phase presented in the coal gangue is kaolinite, while an obvious band of amorphous materials are found in others since they are combustion products, but none of them is in exception of layer structure observed though SEM. Orthogonal experiments of iron leaching by acids reveal that the maximal iron leaching rate and product-calcined whiteness of the coal gangue are 63.59% and 68.54% respectively. For that of the slag of CFB, they are 39.74% and 40.55%, while for that of the washed fly ash, they are 31.58% and 45.92%. Thus, it can be inferred that this coal gangue can better fulfill the preparation of high-quality calcined kaolin.

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煅烧高岭土制备用煤矸石和灰分的评价

针对固体废弃物的综合利用，对某煤矿提供的煤矸石、循环流化床炉渣和水洗粉煤灰作为煅烧高岭土的潜力进行了评价。对这些样品进行了化学成分测定、XRD矿物结构分析、酸浸铁正交试验和煅烧脱碳试验等研究。结果表明，3种样品的化学成分与高岭石非常接近，SiO2与Al2O3的质量比均在1.4:1左右。煤矸石的主要晶相为高岭石，其余为燃烧产物，存在明显的非晶态物质带，但均以SEM观察到的层状结构为例外。酸浸铁的正交试验结果表明，该煤矸石的最大铁浸出率为63.59%，产品焙烧白度为68.54%。循环流化床炉渣和水洗粉煤灰分别为39.74%和40.55%和31.58%和45.92%。由此可以推断，该煤矸石可以较好地完成高品质煅烧高岭土的制备。

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2013 International Conference on Materials for Renewable Energy and Environment

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