The rapid development of the battery industry, which relies heavily on cobalt, has significantly increased focus on the cobalt industry chain. In this context, the extraction and recovery of cobalt from secondary resources, which are often considered waste products or byproducts of other industrial processes, have emerged as an important source of the cobalt industry chain. This study developed an environmentally friendly sodium carbonate roasting process combined with cascade leaching process to realize the full-component recovery of a complex cobalt-rich waste containing valuable elements, including cobalt, tungsten, chromium, tantalum, and niobium. Sodium carbonate roasting was used for pre-treatment to decompose the composite metal oxides and convert dicobalt orthosilicate to sodium cobalt silicate. Water leaching after sodium carbonate roasting can selectively separate tungsten and chromium with leaching efficiencies exceeding 99%. Subsequently, the leaching efficiency of cobalt reached 99.9% via sulfuric acid leaching with sodium sulfite as the reducing agent. A method for precipitating tungsten and chromium was proposed, achieving precipitation efficiencies of 97.1% for tungsten and 99.9% for chromium, respectively. The results of this study provide a resource guarantee for the sustainable development of the cobalt industry.
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