高磷铁矿中磷化合物的气化脱除行为

IF 1.9 3区材料科学 Q2 METALLURGY & METALLURGICAL ENGINEERING

steel research international Pub Date : 2024-07-26 DOI:10.1002/srin.202400131

Jiazhan Liu, Tatsuya Kon, Takayuki Maeda, Ko‐ichiro Ohno, Kenichi Higuchi

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引用次数: 0

摘要

在 H2 还原气氛和 N2 气氛下，对 400-900 °C 温度范围内高磷铁矿石的气化除磷行为进行了理论和实验研究。首先进行了热力学分析，以揭示常见磷化合物（即 P4O10、FePO4、AlPO4、Ca2P2O7 和 Ca3(PO4)2）的气化和反应行为。结果表明，H2 还原气氛下的 P4O10、FePO4 和 AlPO4 以及 N2 气氛下的 P4O10 都可以通过气化去除，而气化气体与铁矿石之间的相互作用的影响有待研究。因此，对含有 P4O10、FePO4 或 AlPO4 的模拟铁矿石进行了脱磷实验。对于含 P4O10 的样品，在 N2 和 H2 还原气氛下分别形成了磷化铁和磷化铁，其形成率随温度的降低而降低，在 400 °C 时几乎停滞。此外，实验还证实，即使引入纯 H2，也无法去除 FePO4 和 AlPO4。

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Gasification Removal Behaviour of Phosphorus Compounds from High‐Phosphorous Iron Ore

The gasification removal behaviour of phosphorus from high‐phosphorus iron ore is theoretically and experimentally studied in the temperature range of 400–900 °C under H2 reducing and N2 atmospheres. In the first step, thermodynamic analysis is conducted to reveal the gasification and reaction behaviours of common phosphorus compounds, namely P4O10, FePO4, AlPO4, Ca2P2O7, and Ca3(PO4)2. The results indicate that P4O10, FePO4, and AlPO4 under H2 reducing atmosphere and P4O10 under a N2 atmosphere can be removed by gasification, and the influence of the interaction between the vaporized gases and iron ore should be investigated. Therefore, dephosphorization experiments are performed on simulated iron ores containing P4O10, FePO4, or AlPO4. For the sample containing P4O10, ferric phosphates and iron phosphides are formed under the N2 and H2 reducing atmospheres, respectively, and their formation rates decreases with decreasing temperature, becoming almost stagnant at 400 °C. Moreover, it is confirmed that FePO4 and AlPO4 cannot be removed even when pure H2 is introduced.

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来源期刊

steel research international 工程技术-冶金工程

CiteScore

3.30

自引率

18.20%

发文量

319

审稿时长

1.9 months

期刊介绍： steel research international is a journal providing a forum for the publication of high-quality manuscripts in areas ranging from process metallurgy and metal forming to materials engineering as well as process control and testing. The emphasis is on steel and on materials involved in steelmaking and the processing of steel, such as refractories and slags. steel research international welcomes manuscripts describing basic scientific research as well as industrial research. The journal received a further increased, record-high Impact Factor of 1.522 (2018 Journal Impact Factor, Journal Citation Reports (Clarivate Analytics, 2019)). The journal was formerly well known as "Archiv für das Eisenhüttenwesen" and "steel research"; with effect from January 1, 2006, the former "Scandinavian Journal of Metallurgy" merged with Steel Research International. Hot Topics: -Steels for Automotive Applications -High-strength Steels -Sustainable steelmaking -Interstitially Alloyed Steels -Electromagnetic Processing of Metals -High Speed Forming