Abstract

The increasing accumulation of electrolytic manganese residue (EMR) with high ammonium nitrogen and heavy metals has become the biggest obstacle restricting the sustainable development of electrolytic manganese industry. A novel method for efficient recovery of ammonium nitrogen as well as solidification of Mn and other heavy metals in the process of preparation of EMR based baking-free brick (B-EMR) was invented by mechanical milling in the coexistence of water and calcium oxide for the first time. It was demonstrated that the solidification/recovery efficiency of Mn and ammonium nitrogen can reach more than 98%. And the compressive of B-EMR was higher than 12 Mpa, which met the requirement of China's national industry standard of stronger than 9.6 Mpa (JC/T 239–2001). Mechanochemical action breaked the Si–O bond and promoted the calcium silicate-like cementitious structure, which contributed to the compressive strength of B-EMR and the solidification of heavy metals. CaO plays a key role in the conversion of ammonium nitrogen in EMR to NH3 and enhanced by mechanical milling. This study provided a feasible path for the resource disposal of EMR. And demonstrated a solution for the limitation of ammonium nitrogen and heavy metals in the large-scale utilization of EMR.

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