Diffusion as a factor in heap leaching of copper ores

Sweet, Alvin Jay

January 1928

No description available.

Hydrometallurgy.

Copper -- Metallurgy.

Heap leaching.

The solid state reaction between Cu₂O and Cu₂S and its applications in copper metallurgy

Goedhals, Jack Faure, 1940-

January 1964

No description available.

Copper -- Metallurgy.

Solid state chemistry.

The use of copper mill tailings for brick manufacturing

Zakhour, Kamil Jamil, 1944-

January 1973

No description available.

Brickmaking.

Copper -- Metallurgy.

Tailings (Metallurgy)

Sulfide filming and flotation of chrysocolla

Faust, William A., 1916-

January 1938

No description available.

Copper ores.

Flotation.

Copper -- Metallurgy.

THE THERMODYNAMIC BEHAVIOR OF BISMUTH IN MATTE, SLAG AND METAL PHASES DURING COPPER SMELTING AND CONVERTING

Araҫ, Sabri

January 1980

No description available.

Copper -- Metallurgy.

Thermochemistry.

Bismuth -- Thermal properties.

A comparison of hydrometallurgical methods for treating a typical Arizona ore

Barney, Wayne K., 1929-

January 1954

No description available.

Copper -- Metallurgy.

Hydrometallurgy.

Copper ores -- Arizona.

Experimental work involving the substitution of manganese for iron in copper mattes

Potter, George Michael, 1914-

January 1936

No description available.

Copper ores -- Metallurgy.

Copper -- Metallurgy.

Manganese -- Metallurgy.

Equilibrium partial vapor pressures over solutions of the diethylene triamine--sulphur dioxide--water system

Roberson, Alva Harold, 1900-

January 1937

No description available.

Copper -- Metallurgy.

Sulfur dioxide.

Vapor-liquid equilibrium.

Effect of stress relaxation on the kinetics of recovery and recrystallization in hot worked ETP copper

Vazquez Brisen̄o, Lucio.

January 1980

No description available.

Copper -- Metallurgy.

Copper -- Heating.

Recrystallization (Metallurgy)

The recovery of copper by tubular supported liquid membranes

Aziz, Mujahid

January 2006

Thesis (MTech (Chemical Engineering))--Cape Peninsula University of Technology, Cape Town, 2006 / During recent years, the use of liquid membranes has gained general interest in the treatment of effiuents where solute concentrations are low and large volumes of solutions should be processed, and, if possible, without generating any secondary waste. Liquid membrane processes have been proposed as a clean technology, owing to their characteristics, i.e. high specificity, low energy and utilization. Two liquid membrane processes have been used in metal recovery, which are the liquid surfactant membrane (LSM), which corresponds to double water-in-oil emulsion and solid . supported liquid membranes (SLM), which are made by dispersing or impregnating the extractant within the pores of in.ert solid support. Previously, the recovery of eu (IT) in a SLM system was conducted by other membrane models such as hollow fibre, spiral and flat sheet. Only a small measure of success on scale-up and industrialization of these models has been attained. One of the disadvantages of the hollow fibre system was the small lumen size through which the feed needed to pass. Pores became clogged by suspended particles because the pressure drop over the small diameter augments lower flow rates and therefore, pre-filtering is necessary (Rathore, et al., 2001). In this study the behaviour of a tubular SLM reactor with an inner diameter of the lumen approximately fifty times bigger than that of the hollow fibre are used in order to solve the problem of clogging. This tubular reactor was incorporated in to a bench scale plant and proved successful in copper extraction. By observing transient data, mass transport coefficients were determined and compared to published values.

Liquid membranes

Membrane separation

Copper -- Metallurgy