A study of options to enhance the operation of a H2 direct reduction shaft furnace using a two-dimensional model

With the intent to explore techno-economically feasible options for improving the performance of the hydrogen (H2) -operated direct reduction shaft furnace for iron ores, a two-dimensional computational fluid dynamics model was applied to assess the potential of a new top gas recycling system featur...

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Bibliographic Details
Published in:International journal of hydrogen energy 2024-10, Vol.86, p.124-131
Main Authors: Shao, Lei, Zhang, Xinya, Zhao, Chenxi, Zhai, Yandong, Saxén, Henrik, Zou, Zongshu
Format: Article
Language:English
Subjects:
Direct reduction of iron ores
Dual-row top gas recycling
Energy consumption
Gas utilization
H2 shaft furnace
Operation enhancement
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Summary:With the intent to explore techno-economically feasible options for improving the performance of the hydrogen (H2) -operated direct reduction shaft furnace for iron ores, a two-dimensional computational fluid dynamics model was applied to assess the potential of a new top gas recycling system featuring dual-row injection. A special numerical routine was developed to bridge data communication during the iterative calculation, where the composition of the gas injected in the upper (tuyere) row varies with the conditions. The results showed that a poor gas utilization is inevitable for a (conventional) single-row recycling system since it cannot properly address the strong heat demand of the process. For dual-row top gas recycling with a reduced lower-row feed rate, the in-furnace thermochemical state is inappropriate if the upper-row feed rate is low, but is gradually improved as the upper-row feed rate increases, since more thermal energy is supplied to the part of the furnace where it is needed. With an appropriate configuration of the upper- and lower-row feed rates, the overall furnace performance can be substantially improved particularly with respect to gas utilization degree. The findings of this work are expected to aid the future design of more efficient operation of H2-based direct reduction of iron ores. •The potential of a new top gas recycling system with dual-row injection is studied.•A special numerical routine is developed to bridge data communication.•Field variables have a non-uniform distribution along the furnace radial direction.•Poor gas utilization is inevitable for a conventional single-row recycling system.•The dual-row system can improve the gas utilization and lower total energy demand.
ISSN:0360-3199
DOI:10.1016/j.ijhydene.2024.08.390