Recycling of Waste V₂O₅–WO₃/TiO₂ Catalysts in the Iron Ore Sintering Process Via a Preballing Approach

Abstract: Extensive use of selective catalytic reduction denitrogenation technology leads to the generation of a large amount of hazardous waste vanadium–tungsten–titanium catalysts. To valorize these waste catalysts, a new technology for the recycling of waste catalysts in steelworks was proposed, in which waste catalysts were added to the iron ore sintering process for preparing titanium-bearing sinter for blast furnace hearth protection. The effects of adding the waste catalyst on sinter product quality indexes were … Show more

“…Numerous studies on the extraction and purification of V from spent denitration catalysts have been carried out. , Currently, the common methods for extraction V from spent denitration catalysts include alkaline leaching, sodium roasting, and single-acid leaching . Among these methods, alkaline leaching is known for its high alkali consumption and wastewater generation, while sodium roasting causes high energy consumption .…”

Leaching Vanadium from the Spent Denitration Catalyst in the Sulfuric Acid/Oxalic Acid Combined Solvent

“…Numerous studies on the extraction and purification of V from spent denitration catalysts have been carried out. , Currently, the common methods for extraction V from spent denitration catalysts include alkaline leaching, sodium roasting, and single-acid leaching . Among these methods, alkaline leaching is known for its high alkali consumption and wastewater generation, while sodium roasting causes high energy consumption .…”

Leaching Vanadium from the Spent Denitration Catalyst in the Sulfuric Acid/Oxalic Acid Combined Solvent

Application of steam injection in iron ore sintering: fuel combustion efficiency and CO emissions

Effect of quaternary basicity on reduction behavior of iron-bearing dust pellets