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Synthesis, structure and application of bio-binders for electrodes and refractories in the metallurgical process industries

BioBinder

Carbon is a critical material in several metallurgical industrial sectors, and not just as a reducing agent. The unique chemical and structural versatility, and thermo-physical properties of carbon make it essentially irreplaceable in furnace electrodes and carbon-containing refractories. Thus there is considerable driving force to find viable bio-derived substitutes for fossil carbon materials currently used in these carbon consumables.

This project aims to further develop technically viable bio-carbon binders towards application in the manufacture of carbon electrodes, carbon lining pastes, and carbon-containing oxide refractories so critical to the steel, aluminium, and non-ferrous metal industries.

Collaborators:

Elkem Carbon Solutions
Intocast
BTG

Funding Agency

Swedish Energy Agency

Beginning and End Dates

1 November 2022 to 31 October 2025

Contacts

Björn Glaser associate professor

bjoerng@kth.se , +4687908339

Profile

Other information

More information is available on Swedish Energy Agency's page for this project ( Link ).

Optimization of the ingot casting process by minimising macrosegregation and porosity

Avoiding cracking during casting of a duplex stainless steel

Highly efficient technologies for increased yields in steelmaking processes and reduced environmental impact

Valorization of wet biomass residues for sustainable steel production with efficient nutrient recycling

Synthesis, structure and application of bio-binders for electrodes and refractories in the metallurgical process industries

Substitution of fossil-based carbon with lignin in furnace electrodes for the metallurgical industry

Metallic Elements Dissipation Avoided by Life cycle design for Steel

Application of Microwave Plasma Generator for the Production of Solar Grade Silicon

Substitution of fossil Combination in Industrial high-Temperature processes by Advanced Electrical and plasma heating technologies

P purification of MeOH sludge to produce synthetic fluorspar and to recover phosphorus

Refractory materials in steel production: mechanisms of lining wear

Validation of Simulation Models for Steel Production

Fossil free Graphite production with Molten iron graphitization of biomass

Upgrading of biobased pyrolysis oil in existing refinery infrastructure

Biomaterials for carbon anode in aluminium production

Innovative Integrated Tools and Technologies to Protect and Treat Drinking Water from Disinfection Byproducts (DBPs)

Catalytic reduction of CO2 gas to solid carbon - towards emission-free steelmaking

Clean metallurgy

FerroSilva - fossil-free virgin steel from iron ore and biogenic reduction gas

Computational fluid dynamics

Energy and furnace technology

Recycling plastic wastes to valuable chemicals of monoaromatics and metals through catalytic-pyrolysis

Optimized biofuel-production via two-step upgrading via catalytic pyrolysis and hydrotreatment

Electrified-Catalytic Reforming using 3D printed catalysts for Biomethane production from biomass pyrolysis

High-temperature experimental kinetics

Powder metallurgy

Advanced design, monitoring , development and validation of novel HIgh PERformance MATerials and components