Uneven Slurry Causes Screening Fluctuation, Centrifugal Force Screening Stabilizes Discharging Quality

During cassava and tuber starch processing, variations in raw material freshness, crushing fineness and slurry concentration often result in mixed particle sizes and unstable solid content. Traditional screening equipment with fixed mesh and single vibration mode lacks flexibility. Once slurry conditions change, incomplete separation, fiber leakage and excessive starch interception will occur frequently.

Fluctuating screening performance destabilizes downstream purification and concentration processes. Core quality indicators such as starch whiteness, ash content and purity cannot be controlled steadily. Batch quality difference increases production management difficulty, reduces qualified rate, and restricts standardized production and long-term customer supply.

The Centrifugal Sieve adopts controllable centrifugal classification technology and shows strong adaptability to variable working conditions. The high-speed rotating internal structure forms a stable centrifugal field, separating materials by density and particle size automatically. It can maintain consistent separation standards even with fluctuating slurry density and mixed particles.

Different from traditional vibrating screens, centrifugal screening provides uniform force and fixed classification range. It blocks coarse fibers steadily and releases qualified starch granules accurately, correcting process deviations caused by unstable slurry. With smooth internal flow passage and no material accumulation, the equipment delivers highly consistent discharging concentration and purity, supporting standardized continuous production.

Stable discharging quality reduces downstream adjustment pressure, lowers starch waste and defective products, and realizes long-term stable quality control for starch manufacturers.

• Choose speed-adjustable Centrifugal Sieve to adapt to variable slurry concentration and particle size.
• Adopt balanced centrifugal flow channel design to avoid material segregation.
• Select integrated anti-corrosion chamber to keep long-term structural stability.
• Match models according to actual process fluctuation range for flexible load adjustment.
• Prioritize low-vibration and stable-operation models to weaken working condition interference.