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Industrial Ultrasonicator

Industrial Ultrasonicator
Parent Product
Ultrasonic System
Standards
IEC 61010-1
IEC 61326-1
ISO 20427

Industrial Ultrasonicator – QualiUltra™ Inds Series

An Ultrasonicator in the QualiUltra™ Inds Series is built for higher-volume, heavier-duty processing than standard lab sonicators. It uses a large ultrasonic output and longer continuous processing capability to support batch work in the 1–5 L range. Operators can set duty cycle, pulse timing, and total run time to match different materials and viscosity levels. A digital display keeps key settings visible during operation. The platform is designed around industrial-style throughput while keeping controls straightforward.

QualiUltra™ Inds Series is a good fit when labs and pilot operations need scalable dispersion, mixing, or disruption without moving to fully continuous flow systems. The system’s core operating approach relies on ultrasonic cavitation to deliver shear and micro-mixing in liquids. That helps break agglomerates, improve dispersion uniformity, and support particle and cell disruption tasks.

Industrial Ultrasonicator – QualiUltra™ Inds Series Applications

  • Polymer and additive dispersion
    • High shear from cavitation helps distribute polymers and additives more evenly in liquid media. This supports batch preparation where uniformity affects downstream processing and product consistency.
  • Nanomaterial deagglomeration
    • Ultrasonic cavitation helps break soft agglomerates and improves dispersion stability in nanoparticle and nanofiller workflows. Multi-parameter control supports method tuning for different particle systems and solvents.
  • Emulsification and liquid blending
    • Ultrasound promotes fine droplet formation and stronger micro-mixing than mechanical stirring alone. This is useful for pilot-scale emulsions, premixes, and formulation development where batch-to-batch repeatability matters.
  • Cell and biomass disruption for pilot batches
    • Cavitation-driven shear can disrupt cells and biological tissue in liquid suspensions during batch processing. This supports pilot workflows that scale beyond microtube prep, while still using probe-style ultrasonics.
  • Particle size reduction support in slurries
    • Ultrasonic energy can help weaken particle clusters and improve slurry homogeneity. This benefits processes where dispersion quality affects settling behavior, coating uniformity, or analytical consistency.
Industrial Ultrasonicator

Standards

  • IEC 61010-1: Safety requirements for electrical equipment for measurement, control, and laboratory use.
  • IEC 61326-1: EMC requirements for measurement, control, and laboratory equipment.
  • ISO 20427:2023: Standardized ultrasonic dispersion procedures for method documentation and repeatable sample preparation.

Industrial Ultrasonicator – QualiUltra™ Inds Series Key Features

  • Industrial-scale batch capacity
    • Supports processing capacity in the 1–5 L per cycle range for higher throughput workflows.
  • High ultrasonic output for demanding materials
    • Built around a high-power ultrasonic system designed for longer processing time.
  • Wide duty cycle control
    • Adjustable duty cycle supports tuning energy delivery for different viscosity levels and sample sensitivity.
  • Pulse and interval control for method consistency
    • Programmable pulse timing and interval timing support repeatable process cycles and better temperature control.
  • Digital monitoring during operation
    • Digital display supports clear visibility of key parameters during a run.
  • Large probe head for batch work
    • Uses a large tool head intended for batch-scale coupling and improved energy transfer into larger volumes.

Theory and Method

This Ultrasonicator operates through ultrasonic cavitation in a liquid. The transducer converts electrical energy into high-frequency vibration, creating alternating pressure waves that form microscopic bubbles. Bubble collapse produces localized shear and pressure effects that support dispersion, mixing, and disruption. That energy can also help separate particle clusters and improve uniformity in polymers and nanomaterials.

A typical method starts with loading the batch volume and positioning the large probe head for stable coupling. Set power percentage and duty cycle, then define pulse on-time, pulse off-time, and total run time. Pulse operation helps manage heat rise in longer runs while keeping acoustic energy consistent. After processing, confirm dispersion quality, then repeat with the saved settings for batch consistency.

Industrial Ultrasonicator – QualiUltra™ Inds Series Technical Specification

SpecificationQualiUltra™ Inds 2400
Voltage220 V, 50 Hz (110V is also available)
Working frequency15 kHz
Ultrasonic power2400 W
Duty cycle1%–99%
Processing capacity1–5 L per cycle
Probe head diameter38 mm
Pulse time setting1–99 s
Interval time setting1–99 s
Total time setting1–99 min
DisplayDigital display

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Ultrasonic System