Abstract

Recently, direct reduced iron (DRI) has been highlighted as a promising iron source for electric arc furnace (EAF)-based steelmaking. The two typical production methods for DRI are gas-based reduction and reduction using carbon composite pellets. While the gas-based reduction is strongly dependent on the reliable supply of hydrocarbon fuel, reduction using ore-coal composite pellets has relatively low productivity due to solid–solid reactions. To overcome the limitations of the above two processes, and to achieve a more efficient direct reduction process of iron ore, the possibility of combining these two methods was investigated. The experiments focused on performing an initial direct reduction using ore-coal composite pellets followed by a second stage gas reduction. It was assumed that the initial reduction of the carbon composite pellets would enhance the efficiency of the subsequent reduction by gas and the total reduction efficiency. The porosity, as well as the carbon efficiency for direct reduction, were measured to determine the optimal conditions for the initial reduction, such as the size ratio of ore and coal particles. Thereafter, further reduction by the reducing gas was carried out to verify the effect of the preliminary reduction. The reduction kinetics of the reducing gas was also discussed.

Highlights

  • With the strong demand for production methods that could effectively counteract global warming and CO2 emissions, steelmaking production using electric arc furnaces (EAFs) is getting renewed attention

  • In order to prepare for the anticipated drastic growth of EAF-based steelmaking industries, it is necessary to find an alternative iron source to compensate for the shortage of high-quality scrap, which is currently the most important raw material for EAF-based steelmaking [1,2,3]

  • Many studies have been conducted on the operational changes in the EAF process that would be needed to utilize Direct reduced iron (DRI) [4,5]

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Summary

Introduction

With the strong demand for production methods that could effectively counteract global warming and CO2 emissions, steelmaking production using electric arc furnaces (EAFs) is getting renewed attention. Direct reduced iron (DRI), which was developed several decades ago, is a promising candidate. Many studies have been conducted on the operational changes in the EAF process that would be needed to utilize DRI [4,5]. A number of steelmaking companies with access to abundant natural gas have already been using a considerable amount of DRI in their EAF process. Since more demand for DRI is expected in the near future, more efficient production technology is required

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