シアン化物浸出による金採掘

1887年に発見された化学を使って鉱石から金を溶解する

Metallurgy & Metal Processing Global Industrial Scale $220 billion

概要

Gold cyanidation dissolves gold from crushed ore using dilute sodium cyanide solution, a process patented by MacArthur and Forrest in 1887. Despite gold's famous chemical inertness, it dissolves readily in aerated cyanide solution due to the extraordinary stability of the gold-cyanide complex [Au(CN)₂]⁻. This process recovers over 90% of gold from ore and accounts for approximately 90% of all gold produced worldwide. Gold is recovered from the cyanide solution by adsorption onto activated carbon (CIP/CIL) or by zinc cementation (Merrill-Crowe process).

化学プロセス

Crushed and milled gold ore (typically 1-10 g Au/ton) is leached in dilute NaCN solution (0.02-0.05%) at pH 10-11 with air sparging for 24-72 hours. Gold dissolves as [Au(CN)₂]⁻. In the CIL (carbon-in-leach) process, activated carbon is added to the leach tanks to adsorb the gold complex. Loaded carbon is stripped with hot caustic cyanide, and gold is recovered by electrowinning onto steel wool cathodes, followed by smelting to dore bullion.

4Au + 8NaCN + O₂ + 2H₂O → 4Na[Au(CN)₂] + 4NaOH (Elsner equation — gold dissolution in aerated cyanide)
Au(CN)₂⁻ + C(activated) → Au(CN)₂⁻·C (carbon adsorption)
2Au(CN)₂⁻ + Zn → Zn(CN)₄²⁻ + 2Au (zinc cementation, Merrill-Crowe)

原材料

  • Sodium cyanide (NaCN) — Andrussow process (HCN from CH₄ + NH₃ + O₂) + NaOH (Gold complexing agent (lixiviant))
  • Crushed gold ore — Open pit or underground gold mining (Gold source (1-10 g/ton typical))
  • Calcium oxide (CaO, lime) — Calcination of limestone (pH control (maintains pH >10 to prevent HCN))

最終製品

  • Gold dore bullion — Refined to 99.99% gold for investment, jewelry, electronics (85-95% Au, remainder Ag and base metals)
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Environmental Impact

Cyanide is extremely toxic to all forms of life. Tailings dam failures (Baia Mare 2000, Samarco 2015) have caused devastating environmental disasters. Cyanide-bearing tailings require detoxification (typically with H₂O₂ or SO₂/air). The International Cyanide Management Code provides voluntary standards. Mercury amalgamation by artisanal miners causes severe mercury pollution.

安全性の考慮事項

最新のイノベーション

Thiosulfate leaching (non-toxic alternative) is commercially applied at Barrick's Goldstrike mine (Nevada).
Glycine-based gold leaching is being developed as a milder alternative.
Cyanide destruction using INCO SO₂/air process reduces WAD cyanide to <1 ppm in tailings.
Gold recovery from electronic waste (urban mining) uses selective leaching.

生産規模

3500

トン/年

$220 billion

市場価値

もっと見る Metallurgy & Metal Processing

Frequently Asked Questions

What industry uses シアン化物浸出による金採掘?
シアン化物浸出による金採掘 is used in the metallurgy & metal processing sector at global industrial scale scale.
What process is involved in シアン化物浸出による金採掘?
Crushed and milled gold ore (typically 1-10 g Au/ton) is leached in dilute NaCN solution (0.02-0.05%) at pH 10-11 with air sparging for 24-72 hours. Gold dissolves as [Au(CN)₂]⁻. In the CIL (carbon-in-leach) process, activated carbon is added to the leach tanks to adsorb the gold complex. Loaded car
What is the economic significance of シアン化物浸出による金採掘?
シアン化物浸出による金採掘 has a market value of $220 billion and annual production of 3,500 tons.
What is the environmental impact of シアン化物浸出による金採掘?
Cyanide is extremely toxic to all forms of life. Tailings dam failures (Baia Mare 2000, Samarco 2015) have caused devastating environmental disasters. Cyanide-bearing tailings require detoxification (typically with H₂O₂ or SO₂/air). The International Cyanide Management Code provides voluntary standa
What raw materials are used in シアン化物浸出による金採掘?
The main raw materials include: Sodium cyanide (NaCN), Crushed gold ore, Calcium oxide (CaO, lime).