Metal Recovery from Bottom Ash of an Incineration Plant: Laboratory Reactor Tests

ABSTRACT

The bottom ashes, produced by the industrial incinerators, are an essential secondary raw material resource that has been drawing attention to recover economically important metals. In the present study, a hydrometallurgical process (chemical leaching) has been discussed to recover some economically important metals using lab scale reactors (600 mL and 2L capacity). Prior to the leaching tests, the material was characterized for chemical composition and mineralogical phase analysis through XRD. In addition, the conventional process of magnetic separation was applied before leaching tests to remove some easily separable parts. Two acidic reagents (HCl and H₂SO₄) and an alkali reagent (NaOH) have been used to compare the recovery of metal values from the pre-treated bottom ash samples at varying concentrations. Process parameters such as acid/alkali concentration, working volume and temperature have been optimized and the recoveries of metal values under optimum conditions were recorded. The studies showed that 3M H₂SO_4, 1.5 L working volume and 80°C were sufficient to leach 88% Mo, 82% V, 37% Ni, 37% Fe, and 28% Cu. Acid leaching tests using H₂SO₄ were found to be an economical and appropriate solvent for metal recovery from bottom ash.

KEYWORDS:

• Bottom ash
• incineration residue
• leaching
• metal recovery
• molybdenum
• vanadium

Acknowledgments

The authors would like to thank IZAYDAS Inc. Company General Directorate and Project Chief Onur Uludağ for supplying the samples and Dr. Sandeep Panda for kind support during manuscript preparation. This study was supported by the OYP Coordination Unit and the Research Projects Coordination Unit of the Suleyman Demirel University (Project number: 05275-YL-12)