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CHAPTER 4 General methods of extraction.pdf
- 1. DEFENCE ENGINEERING COLLEGE Metallurgical And Materials Engineering Present By: Weldebrhan Hadush (Maj.) 31 Oct., 2019
- 2. Content i. Introduction ii. Pyro-metallurgy Calcinations Roasting Smelting Slags and fluxes iii. Hydro- Metallurgy • Advantages of hydro metallurgy General methods of extraction • Advantages of hydro metallurgy • Leaching operations iv. Electro-metallurgy Electrolytic decomposition Structure of solvent media Molten(fused) salt electrolytes Electrolysis of aqueous solutions Role –energy in metal extraction
- 3. INTRODUCTION In metal extraction, bulk of metal separated from impurities present in the ore- using a system comprising more than one phase. Driving force for the reactions involved in metal extraction depends on differences in chemical potentials of the chemical elements. Specific amount of energy required to reduce or release a metal ion present in compound (solid or liquid) in association with other elements. There are three main methods of extracting metals from their ores General methods of extraction 1 There are three main methods of extracting metals from their ores • Pyrometallurgy: Metallic extraction at elevated temperatures, ore compounds relatively unstable facilitating the release of metals. • Electrometallurgy: dissociation or decomposition of a compound in solution (i.e. reduction of an ion) – by electrical forces. • Hydrometallurgy: reduction process depends on the judicious manipulation of chemical reactions taking place in an aqueous solution. DUC 2019/20
- 4. PYRO-METALLURGY Pyrometallurgy is a branch of extractive metallurgy. It consists of the thermal (Word “Pyro” indicates “Fire”) treatment of minerals and metallurgical ores and concentrates to bring about physical and chemical transformations in the materials to enable recovery of valuable metals . Heating and smelting operations are used in this process to recover the valuable General methods of extraction 1 Heating and smelting operations are used in this process to recover the valuable metals such as Fe ,Cu ,Zn ,Cr, Mn which are extracted by pyrometallurgy. DUC 2019/20
- 5. PROCESSES Pyrometallurgical processes required energy to takes place . The energy provided by fuel combustion ,electrical heat ,exothermic reaction of materials. This processes is auto-genous and exothermic. General methods of extraction 1 DUC 2019/20
- 6. Cont’d Pyro-metallurgy deals with the extraction of minerals from ore by treating them with heat. General methods of extraction 1.Calcination Heating below MP* in absence or limited supply of air 2. Roasting 1 DUC 2019/20 2. Roasting Heating below MP* in presence of excess oxygen for oxidation 3. Smelting Reduced to metals by heating with carbon at high temperature 4. Refining Removal of impurities from materials by a thermal process MP* = Melting Point
- 7. CALCINATION Calcination is a process in which the ore is heated in a limited supply of air at a temperature insufficient to melt it. During calcination , organic matter , volatile impurities and moisture present in the ore are expelled and remaining mass becomes porous. Calcination is also done to remove water from hydrated oxide ores or CO from General methods of extraction 1 Calcination is also done to remove water from hydrated oxide ores or CO2 from carbonate ore. Calcination is generally done in reverberatory furnace to render the porous and easily workable in subsequent stages. CaCO3 → CaO + CO2 (g) Lime stone is heated to give of CO2 PbCO3 → PbO + CO2 (g) Al2O3.2H2O→ Al2O3+ 2H2O (g) Bauxite is calcinated H2O is removed Fe2O3.2Fe(OH)3 → 2Fe2O3+ 3H2O (g) Hydrrous Iron is calcinated to remove H2O DUC 2019/20
- 8. ROASTING In roasting, the ore is heated in a regular supply of air in a furnace at a temperature below the melting point of the metal. Roasting is a metallurgical process involving gas–solid reactions at elevated temperatures with the goal of purifying the metal component(s). Often before roasting, the ore has already been partially purified, e.g. by froth General methods of extraction 1 Often before roasting, the ore has already been partially purified, e.g. by froth floatation. The concentrate is mixed with other materials to facilitate the process. This process is generally applied to sulphide minerals. During roasting, the sulfide is converted to an oxide, and sulfur is released as sulfur dioxide, a gas.. For the ores Cu2S (chalcocite) , ZnS (sphalerite) and PbO 2Cu2 S + 3O2 → 2Cu2 O + 2SO2 2ZnS + 3O2 → 2ZnO + 2SO2 2PbS + 3O2 → 2PbO + 2SO2 DUC 2019/20
- 9. SMELTING A large number of metal oxides obtained during roasting can be reduced to metals by heating with carbon at elevated temp .This process is called smelting. The roasted ore is mixed with a suitable quantity of carbon and heated to a high temperature above the smelting point of the metal. Carbon monoxide reduce the oxide to the free metal. General methods of extraction 7 to the free metal. During reduction ,an additional substance called flux is added to ore . It combines with impurities to form fusible product slag. Impurities + flux=slag Fe2 O3 +3C → 2Fe+3CO Fe2 O3 +3CO → 2Fe+3CO2 PbO + C → Pb+CO PbO + CO → Pb+CO2 NB: Smelting is carried out in reverbretory or blast furnace in a controlled supply of air DUC 2019/20
- 10. PURIFICATION Purification Occurs after reduction Types Mond process for Nickel Produces extremely pure metals General methods of extraction 450- 470°K 330- 350°K 8 DUC 2019/20
- 11. FLUXES: When metal is smelted, the metal is separated from its impurities by melting, with the impurities forming a molten slag on top of the metal. Many of the impurities associated with the ore are difficult to melt, and so they will not form a proper slag easily, which retards the smelting process. To make these impurities easier to melt, fluxes are added. General methods of extraction To make these impurities easier to melt, fluxes are added. Limestone (CaCO3) or dolomite ((Ca,Mg)CO3) are two typical fluxes used in blast furnaces. When a large amount of sulfur needs to be removed from the furnace charge, limestone is the preferred flux. 9 DUC 2019/20
- 12. Cont’d Limestone is also a better flux to use if slag from the blast furnace is to be used as a raw material for cement manufacture. An important criterion for flux selection is availability and cost, and dolomite is often more readily available and less expensive than limestone. SLAGS General methods of extraction SLAGS Two main functions of a slag are: 1. To collect the unreduced gangue minerals so as to form a separate layer in a metal extraction process. 2. To provide a medium in which the impurities in a metal can collect during a refining process. (often, the impurities get partitioned between the metal and the slag). 10 DUC 2019/20
- 13. Cont’d To effectively fulfill these functions, a slag must possess the following properties: 1. The difference between the specific gravities of the slag and the metal should be sufficiently high so that one can be easily separated from the other. 2. The slag must be fluid enough to permit its easy separation from the metal and also to bring about a mass transfer faster (than when the slag is not fluid enough) General methods of extraction also to bring about a mass transfer faster (than when the slag is not fluid enough) of the reacting and product species. (If the slag is viscous, the loss of metal by entrapment in the slag is high). 3. The slag must have a chemical composition which ensures that the activities of the impurities and of the dissolved gangue minerals are low. 11 DUC 2019/20
- 14. HYDRO- METALLURGY Hydrometallurgy takes place with help of aqueous solution or water. Removal of impurities by different physical methods, grinding are the basic processes in preparation of ores in hydrometallurgy. Steps of Hydrometallurgy General methods of extraction 12 DUC 2019/20 Convert the valuable metals into soluble salts 1. Leaching Convert the valuable metals into soluble salts 2. Concentration & Purification Remove impurities to increase metal concentration 3.Metal Recovery Metals are recovered from solution to solid form
- 15. Cont’d Advantages: 1. Suitable for low grade ore. 2. Valuable byproducts can be recovered. 3. Less environmental pollution 4. Less cost as compared to pyro-metallurgy. General methods of extraction 5. It can produce metals like nodules or powder form 6. Even in leaching , low temperatures are involved 13 Disadvantages: 1. Process requires large volume. 2. Handling of chemicals require special care. 3. Large space is required. 4. Chances of corrosion and erosion in handling equipments
- 16. ELECTRO-METALLURGY: It is a branch of metallurgy that deals with the application of electric current either for electrolytic deposition or as a source of heat. Electrometallurgy is related with electrodeposition. There are four types of this process: i. Electro-winning : it represents extraction of metal from ores General methods of extraction i. Electro-winning : it represents extraction of metal from ores ii. Electro-refining : it represents purification of metals. iii. Electro-plating : in this deposition of a layer of one metal on another metal is involved. iv. Electro-forming : it includes forming of thin metal parts through electroplating 14 DUC 2019/20
- 17. Cont’d The Electrolysis of Molten NaCl An idealized cell for the electrolysis of sodium chloride is shown in the figure below. A source of direct current is connected to a pair of inert electrodes immersed in molten sodium chloride. Because the salt has been heated until it melts, the Na+ ions flow toward the negative electrode and the Cl- ions flow toward the positive General methods of extraction flow toward the negative electrode and the Cl ions flow toward the positive electrode. The net effect of passing an electric current through the molten salt in this cell is to decompose sodium chloride into its elements, sodium metal and chlorine gas. 15 Negative electrode (cathode (-)): Na+ + e- → Na Positive electrode (anode (+)): 2 Cl- → Cl2 + 2 e-
- 18. Cont’d The Electrolysis of Aqueous NaCl The figure below shows an idealized drawing of a cell in which an aqueous solution of sodium chloride is electrolyzed. General methods of extraction Once again, the Na+ ions migrate toward the negative electrode and the Cl- ions migrate toward the positive electrode. But, now there are two substances that can be reduced at the cathode: Na+ ions and water molecules Cathode (-): Anode (+): Na+ + e- → Na Eo red = -2.71 V 2 Cl- → Cl2 + 2 e- Eo ox = -1.36 V 2 H2O + 2 e- → H2 + 2 OH- Eo red = -0.83 V 2 H2O → O2 + 4 H+ + 4 e- Eo ox = -1.23 V Then: 2 H2O + 2 e- → H2 + 2 OH- Then: 2 Cl- → Cl2 + 2 e- 16
- 19. Example 4.1 Using the information below calculate °E for the process Cu2+ (aq) +Zn(s) → Zn2+ (aq) + Cu (s) General methods of extraction Substance Zn Cu Zn2+ Cu2+ ΔG 0KJ 0KJ -147KJ 64.77KJ Example 4.2 Based on the electro chemical process Au+3 (aq) + 3e- → Au (s) How many grams of Au are plated out by passing current 13.5 amp through a solution of gold(III) chloride for 4 hrs? (molar mass Au=197 g/mol) 17
- 20. “The future can not be predicted, but it can be made !”