Add to ORKGThe steel industry contributes to the global emissions of fossil CO2 by ~ 7 %, mainly related to coal and coke used in the BF. At the same time the BF is, and will be in a foreseeable future, the most energy efficient method for ore based hot metal production. Several R&D teams have investigated concepts to minimise CO2 emission as e.g. the ULCOS top gas recycling BF, high injection of H2, use of bio-mass products and HBI. In this paper these different options, and in some cases combination of these are analysed relative the BF conditions and their possible impacts on fossil CO2 emission are compared.Validerad;2017;Nivå 2;2017-10-05 (andbra)</p
Iron and steel plants producing steel via the blast furnace-basic oxygen furnace (BF-BOF) route cons...
The iron and steel industry is one of the largest emitters of industrial CO2, accounting for around ...
Climate change is a key challenge of our time. The iron and steel industry emits 6.5 % of global ant...
The steel industry contributes to the global emissions of fossil CO2 by ~ 7 %, mainly related to coa...
Steel production is one of the most energy-intensive and, therefore, CO2 emitting industry. This pro...
Modern trends in iron metallurgy. Global carbon emissions from iron production. New solution for iro...
The iron and steel industry is a major industrial emitter of carbon dioxide globally and in Germany....
The iron and steel industry is a major industrial emitter of carbon dioxide globally and in Germany....
The iron and steel industry is still dependent on fossil coking coal. About 70% of the total steel p...
In the context of climate change, the redn. of greenhouse gas emissions in all economic sectors is c...
Iron and steel making is one of the most intense energy consuming in the industrial sectors. The int...
The iron and steel industry is a major industrial emitter of carbon dioxide globally and in Germany....
The iron and steel industry is still dependent on fossil coking coal. About 70% of the total steel p...
Modern trends in iron metallurgy. Global carbon emissions from iron production. New solution for iro...
The iron and steelmaking industry is among the major contributors to the anthropogenic emissions of ...
Iron and steel plants producing steel via the blast furnace-basic oxygen furnace (BF-BOF) route cons...
The iron and steel industry is one of the largest emitters of industrial CO2, accounting for around ...
Climate change is a key challenge of our time. The iron and steel industry emits 6.5 % of global ant...
The steel industry contributes to the global emissions of fossil CO2 by ~ 7 %, mainly related to coa...
Steel production is one of the most energy-intensive and, therefore, CO2 emitting industry. This pro...
Modern trends in iron metallurgy. Global carbon emissions from iron production. New solution for iro...
The iron and steel industry is a major industrial emitter of carbon dioxide globally and in Germany....
The iron and steel industry is a major industrial emitter of carbon dioxide globally and in Germany....
The iron and steel industry is still dependent on fossil coking coal. About 70% of the total steel p...
In the context of climate change, the redn. of greenhouse gas emissions in all economic sectors is c...
Iron and steel making is one of the most intense energy consuming in the industrial sectors. The int...
The iron and steel industry is a major industrial emitter of carbon dioxide globally and in Germany....
The iron and steel industry is still dependent on fossil coking coal. About 70% of the total steel p...
Modern trends in iron metallurgy. Global carbon emissions from iron production. New solution for iro...
The iron and steelmaking industry is among the major contributors to the anthropogenic emissions of ...
Iron and steel plants producing steel via the blast furnace-basic oxygen furnace (BF-BOF) route cons...
The iron and steel industry is one of the largest emitters of industrial CO2, accounting for around ...
Climate change is a key challenge of our time. The iron and steel industry emits 6.5 % of global ant...