Add to ORKGThe feasibility of processing electric arc furnace (EAF), basic oxygen furnace (BOF) and ladle metallurgy furnace (LMF) slags for metal recovery and carbon dioxide sequestration was evaluated using a combination of grindability and sequestration tests on industrial slags and modeling studies using METSIM. Power consumption, slag-carbon dioxide capture, and metal recovery all increased inversely to grind size (P80) within the range of 50-1,000 μm. The optimum grind size was determined based on a calculated process net value using commodity indexes. EAF and BOF slags exhibited sharp maximum values at 110-120 μm, with a rapid decrease at larger or smaller sizes due to increased power consumption or decreased metal recovery. LMF slag exhibited ...
Fossil fuel usage is the primary source of anthropogenic air pollution, where carbon dioxide (CO2) ...
Humanity faces many challenges that we have to overcome in a very short time. The two most alarming ...
Steelmaking processes intensively use carbon-containing materials and generate a significant amount ...
The alkaline earth-containing phases in steelmaking slag can form carbonates thus sequestering carbo...
The basic oxygen furnace steelmaking slag (SL) is employed for CO2 mineralization. Response surface ...
The goal of this research is to develop a functional sequestration process using steelmaking slag fo...
Steel slag is a by-product of steelmaking which has emerged as a potential CO2 sequestration materia...
International audienceGiven the current depletion of the world's natural resources, the strong deman...
Steel-making processes generate carbon dioxide air emissions and a slag co-product. The aim of this ...
The transition to hydrogen-based reduction processes within the iron and steelmaking industry will g...
An assessment of the energetic requirements of slurry-phase accelerated carbonation for CO2 sequestr...
In this study, an experimental investigation was carried out to fix CO2 into the electronic arc furn...
This dissertation is focused on the development of novel, effective, and environmentally sustainable...
Iron and steel industries are among the contributors of CO₂ emission in large volume into the atmosp...
Fossil fuel usage is the primary source of anthropogenic air pollution, where carbon dioxide (CO2) ...
Humanity faces many challenges that we have to overcome in a very short time. The two most alarming ...
Steelmaking processes intensively use carbon-containing materials and generate a significant amount ...
The alkaline earth-containing phases in steelmaking slag can form carbonates thus sequestering carbo...
The basic oxygen furnace steelmaking slag (SL) is employed for CO2 mineralization. Response surface ...
The goal of this research is to develop a functional sequestration process using steelmaking slag fo...
Steel slag is a by-product of steelmaking which has emerged as a potential CO2 sequestration materia...
International audienceGiven the current depletion of the world's natural resources, the strong deman...
Steel-making processes generate carbon dioxide air emissions and a slag co-product. The aim of this ...
The transition to hydrogen-based reduction processes within the iron and steelmaking industry will g...
An assessment of the energetic requirements of slurry-phase accelerated carbonation for CO2 sequestr...
In this study, an experimental investigation was carried out to fix CO2 into the electronic arc furn...
This dissertation is focused on the development of novel, effective, and environmentally sustainable...
Iron and steel industries are among the contributors of CO₂ emission in large volume into the atmosp...
Fossil fuel usage is the primary source of anthropogenic air pollution, where carbon dioxide (CO2) ...
Humanity faces many challenges that we have to overcome in a very short time. The two most alarming ...
Steelmaking processes intensively use carbon-containing materials and generate a significant amount ...