Gold Activated Carbon: The “Atomic-Level Weapon” for Global Gold Mining Efficiency – Direct Spot Supply, Stable Prices, and Production Capacity I. Three Technical Barriers of Gold Activated Carbon (How We Overcome Them) 1. Precise Micropore Control – The Atomic-Level Code for Gold Loading Aperture Control: Micropores between 0.8-1.2nm account for >70% (matching the 0.5nm diameter of Au(CN)₂⁻). Case Study: Using our customized carbon, a high-grade ore in Congo (20g/ton) increased its gold loading from 250g to 345g/ton, with a desorption rate of 99.2%. 2. Balancing Strength and Adsorption
| Parameters | Military-Grade Gold Carbon | Common Industrial Carbon | Customer Value |
| Drum Strength | ≥98% | ≤85% | Deep-Sea Mining Saves Over ¥5 Million in Annual Carbon Powder Losses |
| Bulk Density | 0.48-0.52g/cm³ | 0.4-0.45g/cm³ | Adsorption Tower Volume Utilization Increased by 30% |
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3. Regeneration Technology – The Core of a 40% Reduction in Gold Cost Per Ton Hot Regeneration + Acid Activation: Gold Retention >92% After 5 Cycles (Industry Average <80%) Case Study: A mine in Ghana regenerates 800 tons of carbon annually, saving ¥36 million in new carbon procurement costs. II. Spot Inventory: The “Ammunition Depot” of Global Gold Mines Customer Use Cases Provided 200 tons of 8×30 mesh coconut shell gold carbon for gold extraction at a mine in Peru
