High Grade Lead Zinc Flotation Separator Ore Beneficiation Equipment

High grade lead zinc flotation separator price and specifications

1.Product Introduction Ore Beneficiation Equipment

The High-Grade Lead-Zinc Flotation Separator is an intelligent mineral processing system specifically engineered for the high-efficiency separation of lead and zinc minerals. It integrates ultrasonic-assisted liberation, multi-stage flotation cells, and an AI-driven dynamic control system to achieve high-selectivity separation. Featuring a modular design, the equipment supports dual-mode operation (mechanical agitation and pneumatic aeration). It is suitable for the roughing, cleaning, and scavenging of sulfide, oxide, and mixed lead-zinc ores, significantly enhancing both concentrate grade and recovery rates.

2.Application Ore Beneficiation Equipment

• Lead-Zinc Beneficiation Plants: Utilized in the roughing stage to rapidly separate lead and zinc minerals, reducing the downstream processing load.

• Polymetallic Recovery: Prioritizing the separation of lead and zinc in copper-lead-zinc symbiotic ores to minimize cross-contamination.

• Environmental Remediation: Minimizing residual lead and zinc in tailings to lower the risk of heavy metal contamination.

• R&D & Industrial Trials: Supporting lab-scale process optimization and providing empirical data for industrial-scale deployment.

3.Working Principle Ore Beneficiation Equipment

1. Ultrasonic-Assisted Liberation
The system utilizes high-frequency cavitation generated by ultrasonic transducers to effectively strip away oxidation films and slimes from the surfaces of lead and zinc minerals. This process enhances surface activity and amplifies the differential hydrophobicity between minerals, creating optimal conditions for selective flotation.

2. Multi-Stage Flotation Separation
• Stage 1 (Lead Flotation): Under precisely controlled pH levels and collector dosages, lead minerals (e.g., galena) are prioritized for recovery to produce lead rougher concentrate.
• Stage 2 (Zinc Flotation): Zinc minerals (e.g., sphalerite) are captured from the tailings of the first stage. By regulating froth stability and pulp levels, gangue entrainment is minimized to boost zinc concentrate grade.
• Stage 3 (Scavenging): Scavenging operations are performed on the secondary tailings to recover residual valuable metals, maximizing the overall recovery rate.

3. Intelligent Control System
The integrated AI algorithm analyzes real-time changes in ore characteristics to automatically optimize key parameters such as ultrasonic intensity, reagent dosage, and aeration rates. This ensures stable and high-efficiency continuous operation.

4.Advantages Ore Beneficiation Equipment

• High Separation Precision: The synergy between ultrasonic pre-treatment and multi-stage flotation ensures recovery rates for both lead and zinc exceed 90%, with impurity content in the concentrate kept below 5%.
•  Green & Low-Carbon: Significantly reduces the consumption of collectors and modifiers, decreasing toxic wastewater discharge and meeting modern green mining environmental standards.
•  Flexible Deployment: The modular design facilitates easy transportation and onsite assembly, making it suitable for stationary plant expansion, remote mining development, and pilot-scale verification.
•  Advanced Automation: The data-driven self-learning control model quickly adapts to fluctuations in ore grade, reducing the need for manual intervention and improving operational stability.
•  Low Integrated Costs: Compared to traditional high-temperature pyrometallurgical processes, energy consumption is reduced by 40%, unit metal recovery costs are lowered by 30%, and the investment payback period is significantly shortened.

5.Technical Specifications

6.Our Solutions