Add to ORKGIn order to calculate the amount of CO2 emissions from the iron and steel making in China, carbon flows in two iron and steel enterprises were investigated with Material Flow Analysis, through the production data and sampling of materials from each enterprise in this paper. Results show that the main carbon sources of CO2 emissions in blast furnace-basic oxygen furnace (BF-BOF) steelmaking are fossil fuel, and fossil fuel in electricity furnace (EAF) steelmaking account for 33% of the total carbon sources; The amount of CO2 emission of per ton crude steel from the BF-BOF steelmaking and EAF steelmaking is 1149.7 and 46.6 kg, respectively
The iron and steel industry is still dependent on fossil coking coal. About 70% of the total steel p...
The iron and steel industry is still dependent on fossil coking coal. About 70% of the total steel p...
AbstractChina has become the world’s largest carbon emitter. Its total carbon emission output from f...
With the increasing concerns on the severity of climate change, CO2 emissions have become a seriou...
China’s iron and steel industry has developed rapidly over the past two decades. The annual crude st...
The steelmaking process is an energy-intensive multi-stage process, and the step involving the conve...
As greenhouse gas emissions from human activities rise, they accumulate in the atmosphere, warm the ...
The steel industry contributes to the global emissions of fossil CO2 by ~ 7 %, mainly related to coa...
Production of iron and steel is an energy-intensive manufacturing process. The energy efficiency of ...
Study on the resource utilization of CO2 is important for the reduction of CO2 emissions to cope wit...
The increasing energy and material consumption associated with global economic growth has resulted i...
Reduction of CO2 emission can be achieved in metallurgical processes. Unit, which has high potential...
With the economic development in Shanghai, a lot of energy has been consumed in the building industr...
To investigate the potential of energy saving and emissions mitigation during 2015–2050 in China's i...
The typical features for an integrated iron & steelmaking industry are high energy consumption and C...
The iron and steel industry is still dependent on fossil coking coal. About 70% of the total steel p...
The iron and steel industry is still dependent on fossil coking coal. About 70% of the total steel p...
AbstractChina has become the world’s largest carbon emitter. Its total carbon emission output from f...
With the increasing concerns on the severity of climate change, CO2 emissions have become a seriou...
China’s iron and steel industry has developed rapidly over the past two decades. The annual crude st...
The steelmaking process is an energy-intensive multi-stage process, and the step involving the conve...
As greenhouse gas emissions from human activities rise, they accumulate in the atmosphere, warm the ...
The steel industry contributes to the global emissions of fossil CO2 by ~ 7 %, mainly related to coa...
Production of iron and steel is an energy-intensive manufacturing process. The energy efficiency of ...
Study on the resource utilization of CO2 is important for the reduction of CO2 emissions to cope wit...
The increasing energy and material consumption associated with global economic growth has resulted i...
Reduction of CO2 emission can be achieved in metallurgical processes. Unit, which has high potential...
With the economic development in Shanghai, a lot of energy has been consumed in the building industr...
To investigate the potential of energy saving and emissions mitigation during 2015–2050 in China's i...
The typical features for an integrated iron & steelmaking industry are high energy consumption and C...
The iron and steel industry is still dependent on fossil coking coal. About 70% of the total steel p...
The iron and steel industry is still dependent on fossil coking coal. About 70% of the total steel p...
AbstractChina has become the world’s largest carbon emitter. Its total carbon emission output from f...