Abstract:
Iron and steel industry is the pillar industry of China, providing a solid foundation for China’s industrialization. While steel plants are energy intensive mainly consum...Show MoreMetadata
Abstract:
Iron and steel industry is the pillar industry of China, providing a solid foundation for China’s industrialization. While steel plants are energy intensive mainly consuming coal and electricity, and their power consumption tends to be higher proportional in the near future, due to China’s “30·60” target of peak and neutrality carbon dioxide emission, electrical substitution, and ongoing energy use right transaction. Thus, these plants will have larger potential to participate in the friendly interaction between power supply and demand. The adjustable potential of purchased power load exists in two aspects: one is the controllable resources of inner energy supply and use system, and the other is the energy schedule regulation accompanied by production process adjustment, which is rarely considered in current energy management research of steel plants. Based on the flexibility analysis of production process control without affecting productivity, the adjustment model of steel-rolling lines, air separation and electric arc furnaces on iron-making line is formulated here, as well as the corresponding energy consumed in these processes. Combined with the optimization of multi-energy coupling system composed of electricity, stream, by-product coal gas, a novel dispatching potential evaluation method is proposed here to achieve the maximum adjustable outsourcing power from power grid according to the demand response situation. Simulation result shows the feasibility of the proposed dispatching potential evaluation method and the necessity to take the production process optimization into account.
Date of Conference: 18-21 July 2021
Date Added to IEEE Xplore: 02 December 2021
ISBN Information: