Investigation on the Impact of Flue Gas Circulation and Oxygen Enrichment on the Sintering Process
ID:291 View Protection:ATTENDEE Updated Time:2024-05-01 09:13:06 Hits:615 Oral Presentation

Start Time:Pending(Asia/Shanghai)

Duration:Pending

Session:No Session »

No files

Abstract
Abstract : To achieve the established goals of "peak carbon emissions and carbon neutrality", the high-energy-consumption steel industry is making every effort to promote carbon reduction. Sintering of iron ore, as an important process in steel production, faces challenges such as high solid fuel consumption and significant emissions of various pollutants. Resolving the issues of high solid fuel consumption and excessive pollutant emissions in sintering without compromising sinter quality, reducing sintering costs, has become a pressing concern in the steel industry. The sintering flue gas recirculation process is an economically viable technique that involves directly recycling a portion of sintering flue gas. This not only reduces the amount of waste gas per unit of sintering ore but also maximizes the utilization of flue gas heat and carbon monoxide latent heat. Combining the rich oxygen process with flue gas recirculation effectively addresses the insufficient effective oxygen issue in a single flue gas recirculation process.
This study employs a static process model of iron ore flue gas recirculation sintering to investigate and delineate the impact of parameters such as recirculation position, recirculation gas volume, recirculation coverage area in the flue gas recirculation process, and oxygen blowing position, oxygen concentration, rich oxygen coverage area in the rich oxygen process on the sintering process and pollutant emissions. The research findings serve as a theoretical and technical foundation for further advancements in integrated sintering processes.
 
Keywords
iron ore sintering; flue gas recirculation; oxygen enrichment; process optimization;
Speaker
周若榕
江西理工大学

Submission Author
周若榕 江西理工大学
徐进 江西理工大学
Submit Comment
Verify Code Change Another
All Comments
Important Date
  • Conference Date

    May 31

    2024

    to

    Jun 03

    2024

  • Jun 03 2024

    Abstract Submission Deadline

  • Jun 03 2024

    Draft paper submission deadline

  • Jun 03 2024

    Registration deadline

Sponsored By
Panel of Computational Mechanics on Granular Materials
Working Party of Computational Mechanics
Chinese Society of Theoretical and Applied Mechanics
Organized By
Hohai University
Dalian University of Technology
Chinese Society of Particuology
Jiangsu Society of Theoretical and Applied Mechanics
Contact Information