Conference Tools for 2022 TMS Annual Meeting & Exhibition

Help

About this Abstract
Meeting	2022 TMS Annual Meeting & Exhibition
Symposium	REWAS 2022: Energy Technologies and CO2 Management
Presentation Title	NOW ON-DEMAND ONLY - Circored Fine Ore Direct Reduction Plus DRI Smelting - Proven Technologies for the Transition towards Green Steel
Author(s)	Sebastian Lang, Timo Haimi, Max Koepf, Roberto Valery
On-Site Speaker (Planned)	Roberto Valery
Abstract Scope	The hydrogen based direct reduction of iron ore plus EAF is widely discussed to replace the BF-BOF route and reduce the carbon footprint of steelmaking. One alternative to shaft furnaces is Metso:Outotec’s Circored process. Fine ore as feed for fluidized bed reactors is eliminating the cost and energy intensive pelletizing. As the only direct reduction process using 100% hydrogen as reductant, Circored has already proven its functionality in an industrial scale pilot plant. Direct charging of hot DRI to a smelter would further increase the energy efficiency. Metso:Outotec’s rectangular 6-in-line smelting furnace combines a flash smelter body and Söderberg electrodes. This DRI smelting solution can replace small/medium sized BFs and produce hot metal with desired carbon content in existing steel plants with BOF-converters. The big furnace volume enables to process low grade iron ore with high gangue content and thus the use of BF-grade feed for DRI production.
Proceedings Inclusion?	Planned:
Keywords	Iron and Steel, Environmental Effects, Process Technology

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

Benefits of a Smart Electrical Energy Management Information System and Its Impact in Your CO2 Footprint

Copper in Biomass Fuels and Its Effect on Combustion Processes

Design of a Molten Salt Metal-air Battery with High-energy Density

Design of Phase Change Material Composites for Efficient and Rapid Storage of Thermal Energy

Development of a Thermodynamic Model for Chromates, Molybdates, Tungstates and Vanadates Involved in the Corrosion of Steels (Fe, Cr, Ni, Mo, W, V) at High Temperatures in Atmospheres Containing O-H-S-C-Cl and Alkaline Salts

Energy Efficiency, Electrification, and Low-carbon Fuels & Energy Sources for Decarbonizing Materials Industry

Geomimicry Inspired MicroNano Concrete as Subsurface Hydraulic Barrier Materials: Learning from Shale Rocks as Best Geological Seals

Heat Island Mitigation Strategy for Urban Areas Using Phase Change Materials (PCM)

Macroscopic Modeling and Phase Field Modeling of Solar Grade Silicon by Molten Salt Electrolysis

Modes of Operation, Design, and Experiments in a Laboratory Solar Convective Furnace System

NOW ON-DEMAND ONLY - Circored Fine Ore Direct Reduction Plus DRI Smelting - Proven Technologies for the Transition towards Green Steel

Power to Hydrogen the Prospects of Green Hydrogen Production Potential in Africa

Radiative Cooling: Harnessing the Cold of Space as a Renewable Thermodynamic Resource

Review on Hydrotalcite-derived Material from Waste Metal Dust, a Solid Adsorbent for CO2 Capture: Challenges and Opportunities in South African Coal Fired Thermal Plant

Silicon-production from SiO-gas via Gas-phase Reactions

Solidification of Salt Hydrate Eutectics Using Multiple Nucleation Agents

Synthesis Methods for Nanoparticle Morphology Control in Clean Energy Applications

The Influence of H₂ and CO Atmospheres on SiO Formation

Thermoeconomics and Dyanamics of Orange Hydrogen Production, an Energy Matter

To Decarbonize Industry, We Must Decarbonize Heat

Treatment of an Indigenous Lepidolite Ore for Sustainable Energy Considerations

Questions about ProgramMaster? Contact programming@programmaster.org