Experimental Study on New Process for Selective Reduction and Separation of BoronBearing Iron Concentrate

doi:-

Abstract

Abstract: In view of disadvantages of present boron and iron separation technology， a new process for selective reduction and separation of the boronbearing iron concentrate was proposed， which was verified by the thermodynamic feasibility analysis and laboratory tests. The laboratory experiments indicated that for the boronbearing iron concentrate in Fengcheng city of Liaoning province with Fe and B2O3 mass fraction of 5605% and 386%， respectively， the optimized parameters of selective reduction and separation were as followed: the carbon ratio 08~ 10， the reduction temperature 1275~1300℃， the reduction time no less than 20min， the particle size of coal about 0075mm and the magnetic field strength of the separation 50mT. The selected product was the iron powder with high metallization， which could be used in steel production through further processing. The tailings of separation were high grade sources containing boron， which could be used as the superior raw material in boron industry.

Key words: boronbearing iron concentrate, selective reduction, separation, magnetic field, FeB separation

CLC Number:

TF0466

FU Xiaojiao， YU Hongxiang， LIU Zhenggen， CHU Mansheng. Experimental Study on New Process for Selective Reduction and Separation of BoronBearing Iron Concentrate[J]. Journal of Northeastern University, 2013, 34(7): 966-969.

References

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