Indirect reduction of steel

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Indirect reduction is the production of steel from iron ore in two steps: first adding carbon, then removing carbon.

Note: Numerous details have been left out for the sake of clarity. The information below is not sufficient for the production of high-quality metal.

Process overview

Pig iron (which is high-carbon iron similar to cast iron, but not intended as a final product) is produced in a blast furnace and then has excess carbon removed in an oxygen furnace.

Oxygen is blown into the molten pig iron at supersonic speeds, where it burns with carbon (a stronger reducing agent than iron) to produce carbon dioxide gas (which escapes) and heat. The reaction is highly energetic and serves to agitate the molten metal (mixing it) and also heats it (molten pig iron comes out of the blast furnace at less then the melting point of steel). The Bessemer converter, the original 19th century oxygen furnace, had a lining of acidic materials. The modern furnace is known as the basic oxygen furnace, due to its basic lining.

After the composition is further fine-tuned, the steel can be cast into various shapes.

Comparison with direct reduction

  • Advantages
    • Simpler, provided that large quantities of carbon and oxygen are available.
    • Requires less electricity (when compared to melting directly reduced iron with an electric arc furnace).
    • There is a reduced risk of hydrogen fracturing when compared to direct reduction by hydrogen gas.
  • Disadvantages
    • Uses more energy overall.
    • Using hydrogen gas as the main reducing agent inherently implies direct reduction.