Results 161 to 170 of about 72,624 (284)

Construction and Performance of Novel Oil Catalytic Materials from Electric Arc Furnace Dust. [PDF]

Molecules
Wang YT, Dong KL, Ji R, Wang YJ, Li JG, Zhao H, Zhang LY, Zhang SH, Tang ZH, Yang J.   +9 more
europepmc   +1 more source

ELECTRICAL CHARACTERISTICS OF ELECTRIC ARC FURNACE

Tetsu-to-Hagane, 1937
Tatsuo Hayashi, Hiroshi Noda
openaire   +2 more sources

Mathematical Modeling of Energy Distribution in the Working Volume of Ore - Smelting Electric Furnace [PDF]

, 2000
Shchetinin, Sergey, Zadorozhniy, Dmitriy, Nezhurin, V. I., Kuvaev, V. Y., Nikitina, I. P.   +4 more
core   +1 more source

Modeling the Thermal Properties of Hydrogen‐Based Direct Reduced Iron Using Computational Thermodynamics and Machine Learning

steel research international, EarlyView.
Hydrogen‐based direct reduced iron (H‐DRI) melts differently from scrap and carbon‐bearing DRI. This work combines differential scanning calorimetry experiments, FactSage thermodynamics, and simple composition‐based regression to predict solidus, liquidus, heat capacity, and enthalpy for H‐DRI.
Ankur Agnihotri, Petri Sulasalmi, Pasquale Cavaliere, Ville‐Valtteri Visuri   +3 more
wiley   +1 more source

Hydrothermal synthesis of ZnO nanoparticles from recycled ZnO obtained from electric Arc furnace dust: morphology control and applications. [PDF]

Sci Rep
Somla S, Yingnakorn T, Chandakhiaw T, Longbutsri C, Sriklang L, Khumkoa S.   +5 more
europepmc   +1 more source

The Application of Hydrochar Composite Briquettes for Sustainable Slag Foaming in the Electric Arc Furnace Process

steel research international, EarlyView.
Hydrochar‐mill‐scale briquettes with varying C/O molar ratios (0.07–0.90) have been tested at 1650 °C to evaluate their slag foaming performance for electric arc furnace application. All seven briquette recipes developed succeed in promoting slag foaming.
Yu‐Chiao Lu, Andrey Karasev, Björn Glaser, Chuan Wang   +3 more
wiley   +1 more source

Correction to: Impact of incorporating spent oil filtering earths into the formulation of alkali‑activated cements based on electric arc furnace slag. [PDF]

Environ Sci Pollut Res Int
Delgado-Plana P, Gómez-Casero MÁ, Bueno-Rodríguez S, Sánchez-Soto PJ, Eliche-Quesada D.   +4 more
europepmc   +1 more source

Sequential Reduction of Chromite Pellets Using Hydrogen and Silicon Carbide for Carbon Emission Abatement During Ferrochrome Production

steel research international, EarlyView.
H2 prereduction selectively metallizes Fe in UG2 chromite pellets at 1100°C, while silicon carbide becomes active at 1300°C to convert remaining Cr2O3 to carbides and promote Cr metallization. By separating the roles of H2 and SiC, the sequential route reaches up to 65.7% Cr metallization and suppresses in‐furnace CO generation by ≈75% versus ...
D. Coertzen, M. Tangstad, J. P. Beukes, P. G. van Zyl, D. G. Bessarabov, S. P. du Preez   +5 more
wiley   +1 more source

Optimization of cementitious and fine electric arc furnace slag on the concrete mixes through mechanical, durability, and microstructural testing. [PDF]

Sci Rep
Rani K, Senthil K, Boora A, Tiwary AK.
europepmc   +1 more source

Barriers to Steel Decarbonization

steel research international, EarlyView.
Main identified barriers to steel decarbonization Carbon dioxide (CO2) emissions are a leading contributor to global climate change, necessitating urgent mitigation strategies. While various metrics—such as total national emissions, per‐capita output, and historical contributions—define responsibility, determining accountability remains complex ...
Pasquale Cavaliere
wiley   +1 more source