Silicon thermal reduction smelting equipment

Production of silicon thermal reduction method rare earth ferrosilicon alloy iron smelting device, usually borrow EAF and standard equipment. The overall requirement for the equipment is to adapt to different raw materials to produce a variety of products, save energy, have a high degree of mechanization and automation, high production efficiency, long service life, easy maintenance and environmental protection. The main technical parameters of domestic common arc furnaces for smelting rare earth ferrosilicon alloys are listed in Table 1.
Table 1 main technical parameters of electric arc furnace
model
HGT-0.5
HGX-1.5
HGX-3
HGX-5
Electric arc furnace capacity / t
Transformer capacity / kVA
Shell diameter / mm
Furnace diameter / mm
Molten pool diameter / mm
Electrode diameter / mm
Maximum electrode travel / mm
0.5
500
1480
950
240
150
850
1.5
1200
2230
1600
290
200
1100
3
1800
2740
2000
360
250
1300
5
2250
3240
2520
430
300
1700
The capacity of the electric arc furnace can be determined according to the output of the design product, the variety and the raw material condition used, and the capacity of the transformer. Generally, it can be calculated by the following formula:
W=P/(K·N·T) [1]
Where W is the nominal capacity of the transformer, kVA;
P——the output of rare earth ferrosilicon alloy, t;
K——the raw material coefficient, generally taking 1.0 to 1.3, the lower limit of the rare earth rich slag, and the upper limit of the rare earth concentrate slag;
N——Electric arc furnace utilization factor, t/(MVA·d);
T - annual working time, d.
(1) Top hopper charge Because the solid rare earth rich slag has poor conductivity, it can only be used after the first arc is charged. The charge is first loaded into the hopper for calculation, and then transported by crane to the top of the furnace for storage. After the arc furnace starts to arc, the gate of the silo can be opened when the feeding is needed, and the charging material flows from the feeding hole of the furnace cover to the furnace through the guiding tube. Each electric arc furnace can be provided with 1 or 2 feeding holes according to the size of its capacity.
(2) Increasing the depth of the molten pool Because the volume of the smelting rare earth ferrosilicon is large, and the slag boiling often occurs during smelting, it is necessary to increase the depth of the molten pool and enlarge the volume of the molten pool to meet the requirements of smelting rare earth silicon alloy. . In practice, it is often used to increase the position of the furnace door to increase the depth of the molten pool.
(3) Adopting carbonaceous lining Because the fluorine-containing rare earth slag has strong corrosiveness to the lining of the alkaline refractory material, the life of the lining is short, and the operating rate of the electric arc furnace is reduced. Carbon lining.
(4) Adding smoke and dust removal facilities A large amount of flue gas is generated in the process of smelting rare earth ferrosilicon alloy in electric arc furnace, and its dust content can reach 2g/m 3 , and contains harmful gases such as fluorine, which seriously deteriorates the working environment. At present, rare earth alloy production plants generally use hoods to collect flue gas, and use the induced draft fan to remove the flue gas through cloth bags or static electricity to achieve emission standards for flue gas emissions.
Figure (1) shows the equipment system for smelting rare earth ferrosilicon alloy by 5t arc.
Figure 1 Schematic diagram of equipment system for smelting rare earth ferrosilicon alloy

Junction Box

JXHS series junction box advanced technology during production, stresses the details during design, implements design standard during processing, and has high consistence of product quality. It has various features such as strong damp proof, anti-corrosion and anti-electromagnetic capacities and high adjustment accuracy, and is suitable for various adverse environments. Its main advantages include:
The product uses own mold to make technologic design, the housing uses aluminum and silicon alloy and upper protrusion and lower sinking structure is used so as to ensure good sealing performance; protective grade reaches IP 68.
Main parts are imported, wiring bar is welded with precise anti-surge electronic components, which can prevent Load Cell damage caused by lightning and power grid surge voltage.
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Assembly of junction box uses not-loose screws so as to avoid loss during load cell wring.
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