Artificial intelligent based energy scheduling of steel mill gas utilization system towards carbon neutrality
Steel industry contributes significantly to the world economy, but is highly energy intensive
and CO 2 intensive since the coal-based blast furnace route is dominant in steelmaking …
and CO 2 intensive since the coal-based blast furnace route is dominant in steelmaking …
Assessment of low-carbon iron and steel production with CO2 recycling and utilization technologies: a case study in China
Q Chen, Y Gu, Z Tang, W Wei, Y Sun - Applied Energy, 2018 - Elsevier
Substance flow analysis (SFA) and energy and economic assessment were used in this
study to analyze the utilization of CO 2 in the steelmaking system based on four scenarios …
study to analyze the utilization of CO 2 in the steelmaking system based on four scenarios …
Two-stage robust optimization approach for flexible oxygen distribution under uncertainty in integrated iron and steel plants
Optimal oxygen distribution is one of the most important energy management problems in
the modern iron and steel industry. Normally, the supply of the energy generation system is …
the modern iron and steel industry. Normally, the supply of the energy generation system is …
Status, challenges, and prospects of energy efficiency improvement methods in steel production: A multi-perspective review
Y Yuan, H Na, C Chen, Z Qiu, J Sun, L Zhang, T Du… - Energy, 2024 - Elsevier
Improving energy efficiency has been widely recognized as a direct, efficient, and cost-
effective approach to advancing energy conservation, reducing emissions, and achieving …
effective approach to advancing energy conservation, reducing emissions, and achieving …
Data-driven multi-period modeling and optimization for the industrial steam system of large-scale refineries
Steam system modeling and optimization contributes toward low energy consumption for
large-scale industrial refineries. However, formidable challenges have been generated by …
large-scale industrial refineries. However, formidable challenges have been generated by …
Multi-objective optimization and analysis of material and energy flows in a typical steel plant
Y Yuan, H Na, T Du, Z Qiu, J Sun, T Yan, Z Che - Energy, 2023 - Elsevier
The integrated optimization and analysis of material and energy flows are effective ways to
reduce energy consumption and costs in the iron and steel sector. There is still a lack of …
reduce energy consumption and costs in the iron and steel sector. There is still a lack of …
Operation scheduling optimization of gas–steam–power conversion systems in iron and steel enterprises
Z Hu, D He - Applied Thermal Engineering, 2022 - Elsevier
Iron and steel enterprises exhibit the characteristics of a large amount of energy conversion
equipment, many different energy media, and frequent changes in energy supply and …
equipment, many different energy media, and frequent changes in energy supply and …
Multi-energy optimization under the water-energy-carbon nexus in a typical iron and steel plant
The multi-energy system in iron and steel plants has strong coupling characteristic, which
makes the energy distribution complex and difficult in energy management. Additionally, the …
makes the energy distribution complex and difficult in energy management. Additionally, the …
A dynamic scheduling framework for byproduct gas system combining expert knowledge and production plan
Effective scheduling for byproduct gas systems of steel industry is becoming increasingly
vital for maintaining their safe operating and improving energy utilization. Considering that …
vital for maintaining their safe operating and improving energy utilization. Considering that …
General methodology and optimization for the analysis of bottoming cycle cogeneration
This paper aimed to develop a general calculation methodology for bottoming cycle
cogeneration. The methodology considered the simultaneous generation of heat, power and …
cogeneration. The methodology considered the simultaneous generation of heat, power and …