Gold Recovery Jig, Shaking Table and Amalgamation Process
CIRCUIT PROCESS FLOWSHEET DESCRIPTION: Modern, inexpensive amalgamation circuit with the Mineral Jig as the major recovery unit. ORE TREATED: Practically any gold ore containing native or free gold. ADVANTAGES From sixty to ninety-five percent recovery can be made with this simple flowsheet on many ores, and the gold produced in bullion form. The Mineral Jig […]
Coarse Sulphide Flotation with Gravity Gold Recovery Circuit
CIRCUIT PROCESS FLOWSHEET DESCRIPTION: A Flash Unit sulphide Flotation Cell followed by a gravity concentration plant. This flowsheet shows the use of the Unit Flotation Cell, to extract/recover bas metal sulphides, in the ball mill classifier circuit in a plant where subsequent treatment consists of the usual gravity concentration methods. ORE TREATED: The ores treated in […]
Gold Flash Flotation with Whole Ore Cyanidation Leaching
GOLD CIRCUIT PROCESS FLOWSHEET DESCRIPTION: At the ball mill discharge, a Gold Flash Flotation Cell ahead of a cyanide circuit for the removal of concentrate for finer grinding or roasting, or for the removal of sulphides that are cyanicides (cyanide consumers) or for the removal of other interfering constituents. ORE TREATED: On ores where gold and […]
Recovery of Mercury from Amalgamation Tailing
In this paper on the recovery of mercury as sulphide, from the residues from the amalgamation and cyanide treatment of high-grade ores and concentrates, I will not discuss the many reactions, chemical and otherwise, that take place in the general process, but confine myself more particularly to the methods of recovering the mercury. I submit […]
Coarse Flash Flotation Circuit
DESCRIPTION: A Unit Flash Flotation Cell in coarse concentration flotation circuit. This flowsheet is similar to our Coarse gravity concentration followed by flotation circuit. ORE TREATED: This flowsheet can be used on ores wherein the base metal minerals are freed at a coarse size. This is often seen on Pb Lead/Galena flotation located on the ball mill […]
Coarse Ball Mill Grinding >Gravity Gold & Flotation Recovery Circuit
DESCRIPTION: A flowsheet of Coarse gravity concentration followed by flotation circuit. ORE TREATED: On ores wherein base metals or gold bearing pyrite free at a coarse size. ADVANTAGES: This flowsheet illustrates the application of a concentrating table in the ball mill classifier circuit, followed by flotation of the classifier overflow at a finer mesh. Where […]
Flotation of Cyanide Leaching Tailing
DESCRIPTION: Flotation of cyanide tailing after a Merrill-Crowe gold recovery circuit. ORE TREATED: Where ore bodies at depth have become more refractory and flotation ahead of cvanidation would call for major and expensive mill alterations, the sulphide minerals containing the undissolved precious metals can be recovered by flotation and shipped to the smelter. In some […]
Flotation, Gravity and Tailings Cyanidation Leaching Circuit
DESCRIPTION: Flotation with cyanidation of flotation tailings. This flowsheet has a gravity gold recovery embedded into the grinding circuit’s ball mill discharge. ORE TREATED: Ores containing both oxide and sulphide minerals with gold or silver, or those with cyanicides which must he removed before cyanidation. ADVANTAGES: This flowsheet makes possible the milling in one plant […]
Flotation & Cyanidation Leaching of Concentrate
DESCRIPTION: Flotation followed by cyanidation of flotation concentrates. In this flowsheet the flotation concentrates produced are reground and treated by cyanidation leaching. ORE TREATED: Sulphide ores wherein base metal values are negligible (such as pyrite) but with good gold and silver values, or in cases where increased returns can be secured from the marketing of […]
Flotation & Shaking Tables with Open Circuit Ball Mill
DESCRIPTION: Flotation followed by shaker table concentration in open circuit grinding. ORE TREATED: When the mineral in an ore is freed at a coarse mesh, this flowsheet gives high recovery and high capacity. The practice is limited in scope, as on ores requiring fine grinding, closed circuit is preferable, and on ores wherein the gold is free, amalgamation […]