Litcius/Paper detail

Economic and environmental analyses of biomass torrefaction for injection as pulverized material in blast furnaces

Alex Milton Albergaria Campos, Nyetbai Khozhanov, Paulo Santos Assis, Khambar Tursunbaev, Muratbek Masatbayev

2021REM - International Engineering Journal15 citationsDOIOpen Access PDF

Abstract

Biomass was the first material used as a fuel by humanity, being replaced by fossil fuels after the industrial revolution. With the growing of environment discursions and the effects of CO2 emissions, biomass has been gaining strength as a potential alternative to fossil fuels, especially for steelmaking, which is responsible for about 5 to 10% of all CO2 emitted. It is known that biomass, compared to fossil fossils, has a higher volatile content, high moisture and lower calorific value. On the other hand, it has a higher hydrogen content and lower sulfur content (important for the steel industry), in addition it is considered neutral in CO2 emissions. Torrefaction, heating biomass at a temperature between 200-280°C in an oxygen free atmosphere, is an interesting treatment to adapt biomasses for use in the steelmaking processes, mainly in the pulverized material injection into the blast furnace. PCI is an extremely important process for the production of iron in the blast furnace, due to its ability to reduce coke consumption and optimize the operation of the reactor. This article comes with the purpose of presenting a bibliographic review about PCI technique, torrefaction process, biomasses and its applicability in the steel industry. In addition, an economic and environmental analysis of the possible use of biomass in steelmaking processes will be presented. Results shows that the use of torrefied biomass in the injection process is interesting, generating savings of 10 dollars and reduction of 264kg in CO2 emissions per ton of hot metal, with a replacement of 50% of the coal used by biomass.

Topics & Concepts

TorrefactionBlast furnaceBiomass (ecology)SteelmakingWaste managementEnvironmental scienceFossil fuelPulverized coal-fired boilerHeat of combustionRenewable energyCokeCoalMaterials scienceEngineeringCombustionMetallurgyChemistryPyrolysisOceanographyOrganic chemistryElectrical engineeringGeologyIron and Steelmaking ProcessesThermochemical Biomass Conversion ProcessesGraphite, nuclear technology, radiation studies