Dry Enrichment Process

This cutting-edge method forms the backbone of our innovative approach to comprehensive mineral waste processing, specifically tailored to address the challenges posed by red mud.

Key Elements of the Dry Enrichment Process:

1. Self-Grinding Mechanism:

Our process is anchored in the principle of self-grinding, a unique feature that sets it apart from conventional methods. High-speed rotary dry self-grinding mills (MSS), designed in-house, play a pivotal role. These mills contribute to the selective destruction of mineral raw materials, paving the way for an efficient enrichment process.

2. Centrifugal Field:

The dry beneficiation process unfolds within a centrifugal field, optimizing the preparation of raw materials. This unique field ensures the breakdown of particles and sets the stage for subsequent self-grinding, all while maintaining defined parameters critical for the process.

3. Horizontal Disc Rotor Mill: 

A crucial component, our dry magnetic enrichment separator, is a "know-how" construction that overcomes limitations of existing magnetic separators. It not only separates particles in magnetic and centrifugal fields but also addresses gravitational forces, enhancing efficiency.

4. Dry Magnetic Enrichment Separator:

 Considering that mineral waste often consists of various minerals with different strengths, our dry self-grinding mills are tuned to target the breakdown of the least durable minerals. This selective disintegration ensures the removal of dusty particles in the cyclone, achieving particle sizes from 1mm to 0.05mm.

5. Comprehensive Particle Disintegration: 

    The process doesn't stop there. Subsequent modules, equipped with specialized rotor mills, continue the refinement process. From a particle size of 0.05mm, the red mud undergoes further grinding, achieving sizes as small as 0.001mm. Each module plays a crucial role in optimizing the extraction of valuable minerals.

6. Further Refinement in Subsequent Modules:

Dry Enrichment Process