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| Effect of high Na2O addition on distribution of phosphorus in low-basicity converter slag |
| Chang Su1,2 Ning-ning Lv1,2 Jin-xing Yang1,2 Liu-shun Wu1,2 Hai-chuan Wang1,2 Yuan-chi Dong1,2 |
| 1 School of Metallurgical Engineering, Anhui University of Technology, Ma’anshan 243032, Anhui, China 2 Key Laboratory of Metallurgical Emission Reduction and Resources Recycling (Anhui University of Technology), Ministry of Education, Ma’anshan 243002, Anhui, China |
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Abstract In order to improve the dephosphorization efficiency of low-basicity converter slag and decrease the consumption of solid CaO, the effect of high Na2O addition (0–15 mass%) on the distribution of P2O5 between solid solution and matrix phase was investigated. The thermodynamic properties of slag samples were calculated by FactSage 7.0 software. Then, the dissolution behavior of phosphorus element from slag was studied. The results show that the mass fraction of 2CaO SiO2– 2CaO Na2O P2O5 solid solution increases when the Na2O content is increased in slag. However, the amount of formed solid solution changes little when the Na2O addition is more than 10 mass%. Moreover, the content of Na2O in solid solution would reach saturation when adding 15 mass% Na2O into the slag. With the increase in Na2O content in slag, the distribution ratio of P2O5 between solid solution and matrix phase increases. The values are evidently higher than the results reported in the literature. Meanwhile, the activity of P2O5 in matrix phase and the activity coefficient of P2O5 in solid solution are decreased with increasing the Na2O content in slag. Furthermore, the dissolution ratio of phosphorus in citric acid solution could be improved by adding Na2O into slag, but the increment of dissolution ratio would decrease when the Na2O content exceeds 10 mass% in slag.
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| Cite this article: |
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Chang Su,Ning-ning Lv,Jin-xing Yang, et al. Effect of high Na2O addition on distribution of phosphorus in low-basicity converter slag[J]. Journal of Iron and Steel Research International, 2019, 26(1): 42-51.
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2019, Vol. 26 
