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Low‐carbon economic schedule of the H <sub>2</sub> DRI‐EAF steel plant integrated with a power‐to‐hydrogen system driven by blue hydrogen and green hydrogen

Bokang Zou, Yuanshi Zhang, Qirui Chen, Qinran Hu, Xiaoyan Hu, Jing Shi, Zesen Li, Qi Wang

2024IET Renewable Power Generation16 citationsDOIOpen Access PDF

Abstract

Abstract Hydrogen direct reduction iron coupled with electronic arc furnace (H 2 DRI‐EAF) technology, as an important technology for decarbonisation in the iron and steel industry, has the advantages of high electrification and low carbon emissions. However, the large demand for hydrogen in this technology relies significantly on the production of electrolytic hydrogen, leading to a substantial increase in power consumption in the steel production process. Moreover, the use of an unclean power source in electrolytic hydrogen production leads to increases in indirect carbon emissions, reducing the low‐carbon attributes of the technology. This study investigates the integrated flexible operation mode of a steel plant. An illustrating method is utilised for modelling the entire steel production process and power to hydrogen (PtH 2 ) process in detail for the H 2 DRI‐EAF steel plant, which includes natural gas, photovoltaic, wind power self‐provided power plants, and carbon capture and storage (CCS) systems. A mixed integer linear programming (MILP) model is developed for the comprehensive scheduling of the steel mill. The results of the case studies indicate that by reliably integrating the production of renewable energy and natural gas power plants, the PtH 2 system can fully consume the renewable energy output while ensuring the smooth progress of steel production and maximising the reduction of carbon emissions from hydrogen production and the total cost of steel production.

Topics & Concepts

ScheduleHydrogenCarbon fibersWaste managementEnvironmental scienceNuclear engineeringEngineeringChemistryMaterials scienceComputer scienceComposite materialOperating systemOrganic chemistryComposite numberHybrid Renewable Energy SystemsSpacecraft and Cryogenic TechnologiesCatalysts for Methane Reforming
Low‐carbon economic schedule of the H <sub>2</sub> DRI‐EAF steel plant integrated with a power‐to‐hydrogen system driven by blue hydrogen and green hydrogen | Litcius