用 NaOH 溶液流式反应器从低品位铁矿石中去除矸石的工艺优化

Yuuki Mochizuki, Benchao Su, Kenichi Higuchi and Naoto Tsubouchi*, 
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引用次数: 0

摘要

本研究旨在开发可将含有大量α-FeOOH和矸石的低品位铁矿石提升到与传统使用的高品位铁矿石相同水平的技术。主要目标是在使用流动型反应器时优化铁矿石的碱性水热处理条件,以构建低品位铁矿石升级工艺的开发框架。在 5 M NaOH 水热处理过程中,煤矸石的去除率随着处理温度的升高而增加,在 250 °C 的处理条件下,Si、Al 和 P 的去除率约为 80%。随着 NaOH 浓度的增加、粒度的减小和固液比的减小,除杂程度也在增加。矿石种类对碱性水热处理去除煤矸石几乎没有影响。根据所得结果,去除煤矸石的最佳参数是粒度为 1000 μm,溶剂浓度为 0.1 M,加热温度为 250 °C。碱性水热处理后,铁矿石中的 FeOOH 变成了 Fe2O3。此外,这种方法还能有效地从含有大量矸石的分选颗粒中去除矸石。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Process Optimization for Gangue Removal from Low-Grade Iron Ore by a Flow-Type Reactor with a NaOH Solution

Process Optimization for Gangue Removal from Low-Grade Iron Ore by a Flow-Type Reactor with a NaOH Solution

This research aims to develop technology that can improve low-grade iron ore containing a large amount of α-FeOOH and gangue to the same level as the high-grade iron ores that are conventionally used. The main goal is to optimize the alkaline hydrothermal treatment conditions for iron ore when using a flow-type reactor for constructing a development framework for an upgrading process for low-grade iron ore. Gangue removal extents during 5 M NaOH hydrothermal treatment increased with increasing treatment temperature, with around 80% of Si, Al, and P removed by treatment at 250 °C. The removal extents also increased with increasing NaOH concentration, decreasing particle size, and decreasing solid-liquid ratio. The ore species was found to have virtually no effect on gangue removal by alkaline hydrothermal treatment. Based on the results obtained, the optimal parameters for gangue removal were a particle size of <1000 μm, a solvent concentration of >0.1 M, and a heating temperature of 250 °C. The FeOOH present in the iron ore changed to Fe2O3 after alkaline hydrothermal treatment. Furthermore, this method was also effective for gangue removal from sorted particles with a large gangue content.

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