Abstract
Iron ore fines, lean grade coal and coke dust fines have always challenged the metallurgists to develop a suitable process for its optimum use. The aim of this study is to utilise the inferior quality of iron ore fines, coal and plant waste coke dust for reduction. At first mechanical properties of iron ore nuggets are assessed through shatter and abrasion test and subsequent to which cold bonded self-reducing nuggets are directly reduced in standard reducing furnace. The maximum extent of reduction achieved in the present study is 87.2%. The reduced specimens are further characterised using XRD, SEM, EDX and chemical analysis method. Finally, the statistical model of Box Behnken Design (BBD) method is successfully utilised to optimise the process parameter for reduction experiments. The optimised sample thus obtained is subjected to melting for laboratory scale pig iron production. Better slag metal separation is achieved when calcined lime is used as a flux. The microstructure of the metallic iron is studied and it shows ferrite phase with dispersed carbon.
Acknowledgements
The authors would like to thank Mr. Bitan Kumar Sarkar, Maharshi Ghosh Dastidar and Arnab Swarnakar, Research Scholar and M.Tech. Student, Metallurgical & Material Engineering, Jadavpur University, Kolkata. We would also like to express our heartfelt gratitude Mr. Anirban Sur, Chemist, GSI (Eastern Region), Kolkata (India). One of the authors (Chanchal Biswas) acknowledges the financial support from technical quality improvement programme phase-11, Jadavpur University for funding and providing fellowship.
ORCiD
C. Biswas http://orcid.org/0000-0001-5859-1286