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Key Factors To Improve Iron Ore Flotation Efficiency

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Mineral processing

Common iron ore types include hematite, limonite and siderite. In the iron ore Mineral Processing, a single gravity separation or magnetic separation process is sometimes difficult to produce iron concentrate that meets the grade requirements, especially for fine-grained iron ore, which usually needs to be further purified by flotation. The flotation methods of iron ore mainly include direct flotation, reverse flotation, direct and reverse flotation, and combined flotation. In order to improve the Mineral Processing efficiency of iron ore, it is necessary to comprehensively consider three factors: iron ore type, flotation environment and flotation reagent.

Iron ore type

The diversity and complexity of iron ore types have an important influence on the selection of flotation process flow, which is mainly based on the grade, material composition, intergrowth characteristics, symbiotic relationship and mudification during grinding of the ore. The choice of flotation method is also different for different types of iron ore.

Fine-grained limonite usually adopts direct flotation or reverse flotation process to improve its recovery effect. However, since limonite is easy to become muddy, which seriously affects the flotation effect, desludging or enhanced dispersion of ore mud may be required before flotation. The flotation treatment of hematite selects positive flotation or reverse flotation according to its particle size and floatability. Hematite with coarser particle size is more suitable for reverse flotation, while hematite with finer particle size can be flotated by positive flotation. Siderite can be sorted by positive flotation or reverse flotation.

Iron ore flotation environment

The flotation environment, especially the change of pH value, is crucial to the flotation effect of iron ore. Different iron ores have different adaptability to pH value, which directly affects the recovery rate of minerals. Hematite has strict requirements on pH value, and its suitable recovery rate occurs in the range of pH value between 6.5 and 7.5. The flotation of siderite selects the corresponding positive flotation or reverse flotation process according to the different pH values. In a strong alkaline environment, cationic collectors are usually used for flotation; in a neutral medium, anionic collectors are used. The reverse flotation process with anionic collectors is to add calcium salts to a strong alkaline medium to activate quartz, and adjust the pH value to above 11 by mixing sodium hydroxide and sodium carbonate. The reverse flotation process with cationic collectors is carried out under the condition that the pH value is adjusted to 8-9. To ensure the flotation efficiency and concentrate quality of iron ore, the pH value in the flotation environment is controlled according to the type and characteristics of the ore, and the collector and inhibitor are reasonably selected.

Mineral processing
Mineral processing

Iron Ore Flotation Reagents

The commonly used flotation reagents for iron ore mainly include cationic collectors, anionic collectors and inhibitors. Cationic collectors, such as amines, are often used in the flotation of iron ore due to their simple structure, low water quality requirements, and low temperature resistance. They are suitable for collecting quartz and silicate minerals. Anionic collectors, including fatty acids, fatty acid soaps, etc., although their selectivity is not as good as cationic collectors, can effectively inhibit gangue minerals by using them in combination with inhibitors.

Hematite is a weakly magnetic mineral. In the flotation process, sodium carbonate and water glass are used as dispersing regulators, starch is used as a depressant for hematite, and oleic acid and amine mixed collectors are used for flotation of silicate minerals. The flotation process of siderite includes two types: positive flotation and reverse flotation. Positive flotation is divided into acidic positive flotation and alkaline positive flotation. Fatty acid collectors are used in neutral or weakly acidic media, and oxidized paraffin soap and tall oil are used in weakly alkaline media. Reverse flotation is divided into anionic collector reverse flotation and cationic collector reverse flotation according to the different collectors used. Anionic collector reverse flotation is to add calcium salt activated quartz to a strong alkaline medium, mix sodium hydroxide or sodium hydroxide and sodium carbonate, adjust the pH value, use starch or lignin sulfonate as an iron mineral depressant, and use fatty acids and their modified agents as collectors. Cationic collector reverse flotation uses sodium carbonate to adjust the pH value of the pulp, starch, dextrin, tannin, etc. to inhibit siderite minerals, and amine collectors are used to float quartz gangue. The collectors are mainly ether amines, followed by fatty amines.

Conclusion

Faced with the diversity and complexity of iron ore properties, we first need to conduct mineral processing tests and select the corresponding process flow based on the test results. At the same time, the scale and technical and economic conditions of the concentrator are also key factors in determining the selection of flotation processes. By comprehensively considering these factors to optimize the process flow, we can ensure high efficiency and high quality of iron ore Mineral Processing and achieve good recovery effects.