10000L Industrial Ultrasonic Cleaner 40kHz for Ceramic Filter Membrane
This industrial-grade ultrasonic cleaner is specifically designed for cleaning ceramic filter membranes and metal heat exchangers. With a massive 9600L capacity tank, it delivers powerful 40kHz ultrasonic cleaning performance for large-scale industrial applications.
| Parameter | Specification |
|---|---|
| Model | JP-11224ST |
| Function | Ultrasonic cleaning |
| Ultrasonic Frequency | 28/40kHz (customizable) |
| Tank Material | SUS 304 (SUS 316 optional) |
| Thickness of tank | 3mm |
| Inner tank dimension | 3200×2000×1500mm |
| Tank Capacity | 9600L |
| Transducer | 1224pcs |
| Ultrasonic Power | 61200W |
| Heating Power | 69000W |
| Time setting | 0~99 hours |
| Temperature setting | Room temperature ~ 95°C adjustable |
| Basket load | 4000KG |
| Power supply | 380V/220V/415V/600V 3 phase |
| Warranty | 1 year warranty for spare parts, lifetime technical support |
| Certification | CE, RoHS, FCC, REACH |
| Lead time | 20~30 working days after deposit |
- Filtration cycle system
- Lifting system for basket
- Dunking system
- Bubbling system
- Electrolysis cleaning
- Cooling system
- Constant temperature control
- Roller barrel system
- Anti-explosion electric box
- Deionized (DI) water system
- Double/Multi frequency options (28/40/20/68/80/132KHz)
The physical mechanism of ultrasonic cleaning relies primarily on ultrasonic cavitation. Optimal cleaning results require appropriate acoustic parameters and carefully selected cleaning agent properties.
Key factors affecting cleaning performance:
- Sound intensity: Higher intensity increases cavitation, but excessive intensity can cause bubble scattering and reduced effectiveness
- Frequency: Lower frequencies (20-40kHz) provide stronger cavitation for large surfaces, while higher frequencies better clean complex shapes
- Temperature: Water achieves optimal cleaning at 60°C, with different cleaning agents having specific optimal temperatures
- Liquid properties: Viscosity, vapor pressure, and surface tension all influence cavitation effectiveness
- Gas content: Monoatomic gases like argon produce stronger cavitation than diatomic gases
For parts with heavy dirt accumulation, we recommend pre-cleaning by dipping or spraying to remove most contaminants before ultrasonic cleaning. Small or complex-shaped items benefit from using a cleaning net or rotating during ultrasonic treatment for uniform cleaning.
Skymen Cleaning Equipment Shenzhen Co. Ltd. has specialized in ultrasonic cleaning technology for over 13 years. Our product range includes household, benchtop, and industrial ultrasonic cleaners, as well as immersible transducer systems. With dedicated R&D teams, we collaborate with customers to develop customized solutions.
After-sales service: 12-month warranty with free replacement parts and lifetime technical support.
Ultrasonic cleaning advantages:
- Reduces manual labor requirements
- Enables cleaning without organic solvents
- Reaches all areas of complex parts
- Shortens various industrial processes
- Eliminates costly mechanical/chemical cleaning of heat exchangers
Safety: Ultrasonic cleaning is generally safe for most parts, though delicate items may require special attention due to the powerful implosion effects.
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