Ferrosilicon and submerged arc furnace

Ferroalloys, ferrosilicon, industry,submerged, electric arc furnace, technology.

Ferroalloys, by definition, are alloys of two or more metals, of which one is Iron. The U.S. Bureau of Mines defines ferroalloy as an alloy of iron with at least one other element except for carbon.

What you’ll learn

  • Students will le learn Practical overview for ferrosilicon industry processes and they will learn also a simple preview at submerged arc furnaces types and uses.
  • smelting process and casting of ferrosilicon.
  • Electrical and mechanical design for submerged arc furnaces.
  • Problems during ferrosilicon production.

Course Content

  • Introduction –> 1 lecture • 6min.
  • Module 2 raw materials –> 1 lecture • 6min.
  • Module 3 ferrosilicon production processes –> 1 lecture • 3min.
  • Smelting Process –> 1 lecture • 4min.
  • Smelting reactions –> 1 lecture • 5min.
  • Tapping and Casting –> 1 lecture • 4min.
  • Submerged arc furnace –> 1 lecture • 5min.
  • Electrical design –> 1 lecture • 4min.
  • AC & Dc furnace –> 1 lecture • 3min.
  • Mechanical design –> 1 lecture • 4min.
  • Electrodes –> 1 lecture • 6min.
  • Furnace lining –> 1 lecture • 5min.
  • Furnace control –> 1 lecture • 3min.
  • Module 5 Maximizing Furnace Production& Reducing Cost –> 1 lecture • 6min.
  • Some operations problems –> 1 lecture • 5min.
  • websites and resources –> 1 lecture • 2min.

Ferrosilicon and submerged arc furnace

Requirements

Ferroalloys, by definition, are alloys of two or more metals, of which one is Iron. The U.S. Bureau of Mines defines ferroalloy as an alloy of iron with at least one other element except for carbon.

The main indicator of the quality of a ferroalloy is its chemical composition and, above all, the content of the leading element. It is important to have Consistency in alloying element amounts in ferroalloys from heat to heat, allowing the manufacture of standard products

The smelting of ferroalloys is commonly performed in electric arc furnaces.

Although ferromanganese can be produced in a blast furnace in a manner similar to iron, the reduction of chromium and silicon from their oxides requires higher Process temperatures and lower oxygen potentials than can be achieved in a blast furnace

Raw materials are perhaps the most important factor for obtaining good furnace operation the first step towards improvements is to reduce the variations

The aim of this course is to present the basic principles for the production of ferrosilicon alloys processes, and a simple preview for submerged arc furnaces.

It is attended for Engineers working in this field, and students or metallurgists maybe find answers for their questions, because at the end of this course you will figure out that you have a preview for this manufacture and the main problems and solutions for the ferrosilicon production process. And having an overview for submerged arc furnaces design and operations.

You will find good papers as resources, you can download and discuses with me or friends .

thanks and I am waiting you at the course .

 

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