Pressure Oxidation of Arsenic (III) Ions in the H3AsO3-Fe2+-Cu2+-H2SO4 System

Abstract: The processing of low-grade polymetallic materials, such as copper–zinc, copper–lead–zinc, and poor arsenic-containing copper concentrates using hydrometallurgical methods is becoming increasingly important due to the depletion of rich and easily extracted mineral resources, as well as due to the need to reduce harmful emissions from metallurgy, especially given the high content of arsenic in ores. Ferric arsenates obtained through hydrothermal precipitation are the least soluble and most stable form of arseni… Show more

“…The pressure-based hydrothermal oxidation of arsenic (III) ions in a H 3 AsO 3 -Fe 2+ -Cu 2+ -H 2 SO 4 system formed during the processing of arsenic-containing sulfide non-ferrous metals was studied in [12]. This research is relevant because the low-grade polymetallic materials, such as copper-zinc and copper-lead-zinc, and poor arsenic-containing copper concentrates obtained using hydrometallurgical methods are becoming increasingly important due to the depletion of rich and easily extractable mineral resources and the need to reduce harmful emissions from metallurgy, especially given the high content of arsenic in ores.…”

Advanced Technologies in Bio/Hydrometallurgy for Recovery and Recycling of Metals

“…The pressure-based hydrothermal oxidation of arsenic (III) ions in a H 3 AsO 3 -Fe 2+ -Cu 2+ -H 2 SO 4 system formed during the processing of arsenic-containing sulfide non-ferrous metals was studied in [12]. This research is relevant because the low-grade polymetallic materials, such as copper-zinc and copper-lead-zinc, and poor arsenic-containing copper concentrates obtained using hydrometallurgical methods are becoming increasingly important due to the depletion of rich and easily extractable mineral resources and the need to reduce harmful emissions from metallurgy, especially given the high content of arsenic in ores.…”

Advanced Technologies in Bio/Hydrometallurgy for Recovery and Recycling of Metals