A method for combining iron extraction and dephosphorization with reduction smelting and separation of low-poor and high-phosphorus refractory iron/manganese ore
A technology of ferromanganese ore and high phosphorus, which is applied in the field of metallurgy, can solve problems such as high operating cost, high production and operating cost, and difficult dephosphorization, and achieve the effects of shortening reaction time, high added value of products, and continuous and stable temperature
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Embodiment 1
[0075] A method for combining reduction smelting and separation of low-lean and high-phosphorus refractory iron ore with iron extraction and dephosphorization, the steps are as follows:
[0076] (1) Extracting iron and reducing phosphorus from raw ore
[0077] Select the oolitic hematite from Jiangyou, Sichuan (its main index is shown in Table 3), and the processing and grinding into 200 meshes account for 80% ore powder, and adopt 1200mT magnetic field strength wet magnetic separation to carry out mineral processing to obtain rich ore powder (the index is shown in Table 4);
[0078] table 3
[0079] name
TFe%
S%
P%
Oolitic hematite raw ore
36.77
0.11
0.36
[0080] Table 4
[0081] name
TFe%
S%
P%
Rich mineral powder
45.25
0.085
0.116
[0082] (2) Add internal carbon anthracite and additives to the rich ore powder obtained in step (1), after mixing evenly, spray water to form pellets of ¢8~¢16m...
Embodiment 2
[0091] A method for combining reduction smelting and separation of low-lean and high-phosphorus refractory iron ore with iron extraction and dephosphorization, the steps are as follows:
[0092] (1) Extracting iron and reducing phosphorus from raw ore
[0093] Select TFe: 25.64%, P: 2.38% low-iron and high-phosphorus refractory Hunan oolitic hematite, crush it into fine particles with a particle size ≤ 20mm, and carry out magnetization roasting at 800°C for 1.5h. After cooling, process and grind Fineness is 200 ~ 400 mesh ore powder, using 250mT magnetic field strength wet magnetic separation, to obtain TFe: 55.12%, P: 0.19%, iron recovery rate of 72.18% rich ore powder;
[0094] (2) Add internal carbon anthracite and additives to the rich ore powder obtained in step (1), after mixing evenly, spray water to form pellets of ¢8~¢16mm, and dry the wet pellets at 180°C for 2 hours; Wherein the mixed material is by weight percentage: rich ore powder 82.5%, internal carbon anthraci...
Embodiment 3
[0101] A method for reducing, smelting, and combining iron extraction and dephosphorization of low-poor, high-phosphorus refractory manganese ore, the steps are as follows:
[0102] (1) Extracting iron and reducing phosphorus from raw ore
[0103] Beipiao manganese ore in Liaoning Province (see Table 8 for its indicators) was selected, crushed into fine particles with a particle size of ≤20mm, and magnetized and roasted at 750°C for 1.0h. After cooling, it was processed and ground into ore powder with a fineness of 200 mesh. Magnetic field intensity dry type magnetic separation, obtain rich ore powder (magnetic material of dry selection) and manganese-rich powder, its index is shown in Table 9;
[0104] Table 8
[0105]
[0106] Table 9
[0107]
[0108] (2) Add internal carbon anthracite and additives to the rich ore powder obtained in step (1), after mixing evenly, spray water to form pellets of ¢8~¢16mm, and dry the wet pellets at 180°C for 2 hours; Among them, the...
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