Bottom-mounted Magnetic Dispersing Mixer

Our Bottom-mounted Magnetic Dispersing Mixer is a highly efficient mixing and dispersing equipment specifically engineered for pharmaceutical, bio-engineering, and fine chemical industries. By completely eliminating traditional mechanical seals, it achieves absolute zero-leakage and zero-contamination, meeting the strictest sterile and safety standards worldwide.

Technical Specifications

  • Core Application: Solid-liquid dispersing, agglomerate-free powder dissolution.
  • Impeller Design: Tooth-shaped dispersing disc (Stator-rotor structure).
  • Operating Speed: Medium to high speed.
  • Shearing Intensity: Medium shear with powerful axial and radial circulation loops.
  • Target Particle Size: Micron-level (De-agglomeration of fine powder particles).

Why Choose a Magnetic Bottom-Entry Dispersing Mixer?

In high-purity processing, traditional top-entry mixers often suffer from mechanical seal wear, resulting in lubricant leakage or bacterial contamination. Our magnetic drive technology completely solves this pain point.

1. Absolute Zero-Leakage

The static isolation sleeve replaces dynamic seals. No moving parts pass through the vessel wall, eliminating any risk of cross-contamination.

2. Low-Level Agitation

Installed at the absolute bottom of the tank, the mixer can maintain high-shear dispersing even with minimum liquid volumes, reducing product waste.

3. Full CIP / SIP Compliance

The dead-zone-free design supports automated Clean-in-Place (CIP) and Sterilize-in-Place (SIP) cycles, perfectly matching strict GMP and FDA regulations.

How It Works

  1. Bottom-Mount Installation: The mixing head is securely welded or flanged to the lowest point of the vessel for optimized fluid dynamics.
  2. Magnetic Shaftless Drive: Internal and external permanent magnets couple through the solid tank wall, driving the impeller without physical contact.
  3. High-Shear Micronization: The high-speed tooth-shaped disc generates intense mechanical shear and rapid circulation, instantly breaking down powder agglomerates into micron-sized particles.