Add to ORKGThe energy use in the Swedish Iron and Steel Industry is described with the methodology of the System Analysis Models. Production routes, technologies, materials and energy flows are described and analyzed for the production plants in Sweden, obtaining the Reference Energy System (RES) for the industry. The energy consumption and CO2 emissions from Sweden will be compared with the results that could be obtained when using the Best Available Techniques (BAT) in the Steel sector. The comparisson will allow to indentify main processes which can achieve largest energy savings and CO2 mitigation.Validerat; 20120611 (anonymous
Major changes are taking place in the Sweden’s electricity system and steel industry. Through politi...
The management of process industries is becoming in the recent years more and more challenging, give...
The European Union faces challenges related to climate change, security of energy supply, and compet...
The energy use in the Swedish Iron and Steel Industry is described with the methodology of the Syste...
The process industries stand for a substantial part of the energy used in Sweden. Industrial systems...
The processes of iron and steel making are energy intensive and consume large quantities of electric...
SSAB’s two integrated iron and steel production plants in Luleå and Oxelösund are among the largest ...
The iron and steel industry is an energy intensive energy that consumes vast quantities of fossil fu...
Knowledge about variations in energy use for energy intensive industries is becoming more important ...
There is a growing awareness of serious problems associated with the use of energy. These problems i...
The treatment of energy demand in analyses based on energy systems engineering models is explored in...
Industry is responsible for approximately 30 % of the total emissions of greenhouse gases, both glob...
The energy consumption and CO2 emission of Swedish produc-tion of flat and long products of structur...
Sweden and Scandinavia are situated in an area, which is rich in natural resources. Energy-intensive...
Improving energy efficiency in industry is recognized as one of the most vital activities for the mi...
Major changes are taking place in the Sweden’s electricity system and steel industry. Through politi...
The management of process industries is becoming in the recent years more and more challenging, give...
The European Union faces challenges related to climate change, security of energy supply, and compet...
The energy use in the Swedish Iron and Steel Industry is described with the methodology of the Syste...
The process industries stand for a substantial part of the energy used in Sweden. Industrial systems...
The processes of iron and steel making are energy intensive and consume large quantities of electric...
SSAB’s two integrated iron and steel production plants in Luleå and Oxelösund are among the largest ...
The iron and steel industry is an energy intensive energy that consumes vast quantities of fossil fu...
Knowledge about variations in energy use for energy intensive industries is becoming more important ...
There is a growing awareness of serious problems associated with the use of energy. These problems i...
The treatment of energy demand in analyses based on energy systems engineering models is explored in...
Industry is responsible for approximately 30 % of the total emissions of greenhouse gases, both glob...
The energy consumption and CO2 emission of Swedish produc-tion of flat and long products of structur...
Sweden and Scandinavia are situated in an area, which is rich in natural resources. Energy-intensive...
Improving energy efficiency in industry is recognized as one of the most vital activities for the mi...
Major changes are taking place in the Sweden’s electricity system and steel industry. Through politi...
The management of process industries is becoming in the recent years more and more challenging, give...
The European Union faces challenges related to climate change, security of energy supply, and compet...