200 Mesh Froth Flotation Equipment 3000TPD For Copper Ore Processing

Energy efficient froth flotation equipment for copper ore processing

1.Product Introduction Ore Beneficiation Equipment

Energy-Efficient Copper Flotation Equipment is a mechanical or forced-air agitation flotation system specifically designed for the high-efficiency recovery of copper sulfide minerals (such as chalcopyrite and bornite). By optimizing bubble generation, impeller geometry, and intelligent control systems, these units reduce unit energy consumption by 30%–40%. Leading domestic models, represented by the SF, XCF, and KYF series, utilize "aeration-agitation separation" technology with adjustable impeller speeds (139–400 rpm), aeration rates of 0.5–1.5 m³/(m²·min), and a low specific power of 0.5–1.2 kW/m³. Single-cell volumes range from 0.37 to 680 m³, supporting wear-resistant polyurethane impellers, variable frequency drives (VFD), and PLC automation for applications ranging from laboratory testing to large-scale concentrators. Local manufacturers in Zhengzhou (e.g., Donghong Machinery, Henan Shanchuan) provide localized production compatible with 380V/50Hz industrial grids.

2.Application Ore Beneficiation Equipment

• Primary Roughing & Cleaning: Processing copper sulfide ores with grades of 0.2%–1.5% to produce copper concentrates with grades of 20%–28%.

• Low-Grade Ore Recovery: Pre-concentration of refractory ores with grades <0.3% to enhance downstream smelting economics.

• Tailings Scavenging & Valorization: High-efficiency recovery of residual copper (grades 0.05%–0.15%) from historic tailings, aligning with "Zero-Waste Mine" policies.

• Copper-Molybdenum Separation: Achieving efficient separation of Cu and Mo through precise pH regulation and optimized reagent regimes.

• Mobile Mineral Processing: Integrated into skid-mounted plants for rapid deployment in small-to-mid-sized mines across Henan, Jiangxi, and Yunnan.

• Smart Plant Upgrades: Serving as core units in ultra-large systems (e.g., 680 m³ cells at Dexing Copper Mine) for fully automated process monitoring.

3.Working Principle Ore Beneficiation Equipment

• Slurry Preparation: Raw ore is crushed and ground to a particle size of ≤0.25 mm and conditioned into a slurry with a 30%–50% concentration.

• Reagent Conditioning: Collectors (e.g., Butyl Xanthate at 80–150 g/t) and frothers (e.g., #2 Oil/Pine Oil at 20–40 g/t) are added. Lime is used to adjust the pH to 8–11 to activate copper minerals.

• Aeration & Agitation:

  • Mechanical Agitation (e.g., XJK/SF): Impeller rotation creates negative pressure to suck in air, forming 30–100 μm bubbles.

  • Forced-Air Agitation (e.g., XCF/KYF): External blowers provide air, while the impeller only handles slurry circulation, reducing energy consumption by over 30%.

• Mineralization: Hydrophobic copper minerals collide with and attach to bubbles, forming mineralized clusters.

• Froth Enrichment: Mineralized bubbles rise to the surface to form a stable froth layer, while gangue settles.

• Concentrate Discharge: Scrapers continuously remove the froth to produce high-grade copper concentrate, while tailings are discharged via gravity flow.

• Intelligent Control: PLC systems automatically regulate pulp levels, aeration rates, and reagent dosing for "one-button" start/stop and remote monitoring.

4.Advantages Ore Beneficiation Equipment

• Superior Energy Efficiency: Specific power consumption of 0.5–1.2 kW/m³ (30%–40% lower than traditional units), saving over a million kWh annually in large plants.

• High Recovery Rates: Achieves 95%–98% recovery for copper minerals between 0.01 and 0.25 mm, significantly outperforming gravity separation (<60%).

• Intelligent Automation: Integrated auto-leveling, online aeration monitoring, and predictive maintenance systems support remote operations.

• Wear-Resistant Components: Polyurethane impellers with a service life exceeding 8,000 hours reduce downtime and maintenance costs.

• Modular Scalability: Cell volumes from 0.37 to 680 m³ support parallel configurations for 5–1,000 t/d systems.

• Cost-Efficiency: Chinese-manufactured equipment is priced at 40%–60% of international brands (e.g.,  Outotec, FLSmidth) with shorter lead times.

• Environmental Compliance: No mercury or cyanide; tailings are compatible with dry-stacking, meeting strict discharge standards for copper smelting.

• Rapid ROI: For a 100 t/d system, recovering 150–200 tons of copper concentrate annually typically results in a payback period of <10 months.

5.Technical Specifications

6.Our Solutions