摘要
Iron ore reduction is a primary unit operation in current metallurgy processes and dominates the energy consumption and greenhouse gas(GHG)emissions of the iron-making process,Therefore,even a slight improvement of the energy efficiency or GHG emissions of iron ore reduction would yield considerable benefits to the cost of pig iron and,more importantly,to mitigation of the associated carbon footprint.The current study presents a discrete model that describes the iron ore reduction process for a single pellet.The transient reaction progress can be predicted and is validated against experimental measurements under various operating conditions,including different reducing gases and temperatures.The effects of pressure,isothermality,gas composition,and flow rate on reduction are investigated.The reduction rate increases significantly with increasing pressure until 5 atm,and the entire reduction process occurs more slowly under non-isothermal conditions than under isothermal conditions.This work provides a solid foundation for the development of a comprehensive particulate system model that considers both heat and mass transfer.
基金
The author is grateful to the National Natural Science Foun-dation of China project(51904122)
the Key Project of jiangxi Provincial Research and Development(20192BBHL80016)
the Opening Research Project of State Key Laboratory of Multiphase Flow in Power Engineering for financial support of this work.
