Copper: Difference between revisions
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The "anode sludge" deposited on beneath the anode may contain a variety of valuable metals, and should be recovered, analyzed, and either recycled or processed. | The "anode sludge" deposited on beneath the anode may contain a variety of valuable metals, and should be recovered, analyzed, and either recycled or processed. | ||
==Testing== | ==Testing== | ||
==Storage== | ==Storage== | ||
Revision as of 13:17, 25 June 2019
| Chemical formula | Cu |
|---|---|
| Atomic Number | 29 |
| OTP appearance | reddish solid |
| Molar Mass(g/mol) | 63.54 |
| Density(g/cc) | 9 |
| Melting Point(°C) | 1085 |
| Boiling Point(°C) | 2562 |
| Coefficient of Thermal Expansion(×10-6 °C-1) | 17 |
| NFPA 704 |  1
1
0
|
Copper is one of the seven metals of antiquity, and a key early workable metal.
Uses
Primary
- Structural Material
- Feedstock for Brass and Bronze
- Essential for electrical wire
Secondary
- WHO LEM component: IUD
Natural Sources
- elemental copper occurs in nature, but rarely
- -hydroxide and -carbonate coexist as the minerals malachite and azurite
- -sulfide occurs as the mineral chalcopyrite and chalcocite.
Hazards
Production
Smelting
- Roast malachite or azurite at or above 290°C driving off carbon dioxide and water, producing copper (II) oxide
- CuCO3 + Cu(OH)2 → 2 CuO + CO2 + H2O
- Carbothermically reduce the copper (II) oxide to copper.
- CuO + C{Cu + CO // A massive excess of carbon is recommended (3:2 ubm)red heat}→
- CuO + C
Example:
- 221g of malachite roasts to 79 grams of copper oxide reduces to 63g of copper.
Purification
High purity is achieved by electrowinning: impure copper bars are submerged in a bath of copper sulfate and/or sulfuric acid, and a positive charge is applied at approximately 2-2.5V. The copper transits the salt bath and reforms as pure copper at the cathode. The cathode can be formed from previously purified copper, impure copper or a second metal. If the latter, the cathode is slowly withdrawn from the bath, leaving a pure copper plate behind.
The "anode sludge" deposited on beneath the anode may contain a variety of valuable metals, and should be recovered, analyzed, and either recycled or processed.
Testing
Storage
Disposal
- Pure copper is safe to dispose of, generally.
- Copper salts can (usually) be converted to basic copper carbonate, which is the natural mineral form. From there it can be smelted back to copper, or disposed of.
- Copper salts, even mineralized, should not be disposed of in waterways or watersheds.
See Also
- Gorgievski, M1; Bozić, D; Stanković, V; Bogdanović, G. (2009) "Copper electrowinning from acid mine drainage: a case study from the closed mine 'Cerovo'"
Journal of Hazardous Materials 170(2-3); pp716-721.
DOI:10.1016/j.jhazmat.2009.04.135
link courtesy United States National Institutes of Health. - Roberts, H. S.; Hastings Smyth, F. (1921) "THE SYSTEM COPPER: CUPRIC OXIDE: OXYGEN"
Journal of the American Chemical Society 43(5); pp1061–1079.
DOI:10.1021/ja01438a009
link courtesy Google Books.