Silico Ferromanganese Gold Smelting Furnace

Silico-ferromanganese gold smelting furnace

Electric arc furnace:
Structural composition: composed of furnace body, electrodes, and power supply system. The furnace body is usually cylindrical with a refractory lining inside, used to withstand high temperatures and protect the furnace shell; Graphite electrodes are generally used as electrodes, which provide heat through the arc generated between them and the furnace charge; The power system provides stable electrical energy for the generation of arcs.
Working principle: High temperature is released through the arc generated between the electrodes, which can generally reach thousands of degrees Celsius, causing the silicon manganese ore, coke and other raw materials in the furnace to quickly melt and undergo a series of chemical reactions, thereby achieving the smelting of silicon manganese iron alloy.
Features: The temperature control is relatively precise, and the furnace temperature can be flexibly adjusted according to the needs of the smelting process, which is conducive to ensuring product quality and producing high-quality silicon manganese iron alloys. However, electric arc furnaces have high energy consumption, relatively high production costs, and high requirements for the purity of raw materials.

Submerged arc furnace
Structural composition: The structure is relatively simple, usually rectangular or cylindrical, with refractory lining and electrodes inside. The outer shell of the furnace is generally made of steel plate, which has certain strength and sealing properties; The refractory lining can withstand high temperatures, corrosion, and protect the furnace structure; The electrode is inserted into the furnace charge and generates heat by being electrified.
Industrial equipment - Silicon manganese iron alloy smelting ore furnace
Working principle: After the electrode is energized, the resistance heat generated by the current passing through the furnace material is used to heat the furnace material, causing the raw materials in the furnace to reach high temperature and undergo reduction reaction, reducing the elements such as manganese and silicon in the silicon manganese ore to form silicon manganese iron alloy.
Features: Low energy consumption, relatively low production costs, suitable for large-scale production of silicon manganese iron alloys. Its structure is relatively simple and the maintenance cost is also low. However, temperature control is not as precise as electric arc furnaces, and product quality may be slightly inferior. Nevertheless, for some application scenarios where quality requirements are not particularly stringent, the silicon manganese iron alloy produced by mineral thermal furnaces can meet the demand.