Limiting Phenomena Related to the Use of Iron Ore Pellets in a Blast Furnace

نویسندگان

  • Santeri Palviainen
  • Olli Vuolteenaho
  • Antti Kemppainen
  • Timo Fabritius
  • Timo Paananen
چکیده

Most of the iron in the world is produced using a blast furnace process, which has iron ore (iron oxides) and coke as its raw materials. When pellets are used in a blast furnace, the iron burden material is charged in the form of pellets and fine, iron-rich by-products are charged typically in the form of cold-bonded briquettes at the top of the blast furnace. Coke is the primary fuel and reductant in the blast furnace. Coke reacts with the oxygen of the blast air and forms carbon monoxide in the up-flowing gas, which reduces the descending iron oxide burden. In addition, carbon and hydrogen bearing reductants are injected from the tuyeres in the lower part of the furnace. Hydrogen partially replaces the carbon monoxide as a reducing agent and changes the composition of the reducing gas. The high temperature properties of the burden have a significant effect on the flow of reducing gas and formation of the cohesive zone which markedly affect the furnace efficiency. The raw materials are commonly stored outdoors and therefore include moisture in varying amounts. In addition, the briquette contains chemically bound water. The rate of injected reductants, the high temperature properties and the water content of the raw materials have significant effects on blast furnace performance. They cause various phenomena in the blast furnace which set limitations on the process. The limiting phenomena related to the use of pellets in the blast furnace were studied in this doctoral thesis with the aim of obtaining additional knowledge about the limiting phenomena. The results show that hydrogen increases the reduction rate of iron oxides at temperatures below 850 °C. High water vapour concentration causes a rapid conversion through a catalysed water-gas shift reaction at above 300 °C in a gas mixture similar to the one in the upper part of the blast furnace. The reduction rate of the cold-bonded briquette is higher than pellets due to a selfreducing effect. The phase transformations occurring in the briquette during reduction follow the path of phase equilibria. The softening of the pellet is caused by the formation of melt which initiates wüstite dissolution in the surrounding slag phase.

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تاریخ انتشار 2015