Hydrogen Metallurgy, Direct reduction, Iron oxides, Microstructure, Multiscale
graphene surface, molecular dynamics, ReaxFF, H2O, Reaction kinetics
Ironmaking, Hydrogen metallurgy system, Shaft furnace, Energy-carbon efficiency, Carbon emissions, low-temperature waste heat recovery
Hydrogen metallurgyHydrogen-based shaft furnaceEnergy efficiencyExergy efficiencyWaste heat recovery
Reactive Molecular Dynamics, Hydrothermal Process, lignin, Microstructure Evolution, Biomass
CFD-DEM, hydrogen metallurgy, Moving bed, Gas-solid reacting flow, Operating parameters
Carbon trading, Stepped DRI price, Low-temperature waste heat recovery, Shaft furnace, Hydrogen metallurgy system, Optimal scheduling strategy
Coke gasification, Sodium catalysis, H2O atmosphere, Coke structure, Electrical resistivity, Pore
Hydrogen metallurgy, hydrogen-based shaft furnace, Energy efficiency, exergy efficiency, waste heat recovery
ReaxFF-MD, graphene surface, CO2, vacancy size, active sites