Sintering Behavior of Molybdenite Concentrate During Oxidation Roasting Process in Air Atmosphere: Influences of Roasting Temperature and K Content.

IF 4.2 2区 化学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Jiangang Liu, Lu Wang, Guohuan Wu
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Abstract

Sintering is a common phenomenon, which often takes place during the oxidation roasting process of molybdenite concentrate in multiple-hearth furnaces. The occurrence of sintering phenomena has detrimental effects on the product quality and the service life of the furnace. In this work, the influence of two key factors (roasting temperature and K content) on the sintering behavior is investigated using molybdenite concentrate as the raw material. Different technologies such as XRD, FESEM-EDS, and phase diagrams are adopted to analyze the experimental data. The results show that the higher the roasting temperature is, the greater the mass loss and the more serious the sintering degree will be. The results also show that with the increase in K content, the mass loss of the raw material is first increased and then decreased, while its sintering degree is still gradually increased. The sintering products obtained during the oxidation roasting process are often tightly combined with the bottom of the used crucible with a smooth and dense surface structure, while their internal microstructures are very complicated, which not only includes numerous MoO3 species, but also unoxidized MoS2, Mo sub-oxide, SiO2, and a variety of molybdates. Among them, both MoO3 and molybdates can be easily dissolved into the ammonia solution, leading to a residue mainly composed of SiO2 and CaMoO4. This study also finds that the sintering phenomenon is caused by the increase in local temperature and the formation of various low-melting-point eutectics. It is suggested that decreasing the roasting temperature and K content, especially the K content, are effective methods for reducing the sintering degree of molybdenite concentrate during the oxidation roasting process.

辉钼矿精矿在空气氧化焙烧过程中的烧结行为:焙烧温度和 K 含量的影响。
烧结是一种常见现象,通常发生在多层炉中钼精矿的氧化焙烧过程中。烧结现象的发生会对产品质量和炉子的使用寿命产生不利影响。本研究以钼精矿为原料,研究了两个关键因素(焙烧温度和 K 含量)对烧结行为的影响。实验数据采用了 XRD、FESEM-EDS 和相图等不同技术进行分析。结果表明,焙烧温度越高,质量损失越大,烧结程度越严重。结果还表明,随着 K 含量的增加,原料的质量损失先增大后减小,而烧结度仍逐渐增大。氧化焙烧过程中得到的烧结产物往往与所用坩埚的底部紧密结合,表面结构光滑致密,而其内部的微观结构却非常复杂,不仅包括众多的 MoO3 物种,还包括未氧化的 MoS2、亚氧化态 Mo、SiO2 以及多种钼酸盐。其中,MoO3 和钼酸盐都很容易溶解到氨溶液中,导致残留物主要由 SiO2 和 CaMoO4 组成。本研究还发现,烧结现象是由局部温度升高和各种低熔点共晶的形成引起的。建议在氧化焙烧过程中降低焙烧温度和 K 含量,尤其是 K 含量,是降低辉钼矿精矿烧结度的有效方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Molecules
Molecules 化学-有机化学
CiteScore
7.40
自引率
8.70%
发文量
7524
审稿时长
1.4 months
期刊介绍: Molecules (ISSN 1420-3049, CODEN: MOLEFW) is an open access journal of synthetic organic chemistry and natural product chemistry. All articles are peer-reviewed and published continously upon acceptance. Molecules is published by MDPI, Basel, Switzerland. Our aim is to encourage chemists to publish as much as possible their experimental detail, particularly synthetic procedures and characterization information. There is no restriction on the length of the experimental section. In addition, availability of compound samples is published and considered as important information. Authors are encouraged to register or deposit their chemical samples through the non-profit international organization Molecular Diversity Preservation International (MDPI). Molecules has been launched in 1996 to preserve and exploit molecular diversity of both, chemical information and chemical substances.
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