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| Availability: | |
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| Quantity: | |
| Place of Origin | China |
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| Brand Name | RPS-SONIC |
| Certification | CE |
| Model Number | RPS-S15-3000 |
| Minimum Order Quantity | 1set |
| Price | negotiation |
| Packaging Details | Foam And Wood Box |
| Delivery Time | 3days |
| Payment Terms | T/T, Western Union, MoneyGram |
| Supply Ability | 200 sets per month |
Description
Ultrasonic Ballast Water Disinfection Equipment is a technology designed to treat ballast water on ships, preventing the spread of invasive aquatic species and pathogens. This equipment utilizes ultrasonic waves to disinfect water, offering an efficient and eco-friendly alternative to chemical or UV-based systems.
Ultrasonic Waves Generation: High-frequency ultrasonic waves (typically in the range of 20–40 kHz) are generated by transducers placed in the water.
Cavitation Effect: These waves create microscopic bubbles that implode violently, producing intense pressure, heat, and shear forces.
Destruction of Organisms:
The cavitation disrupts the cell walls of microorganisms such as bacteria, algae, and plankton.
Larger organisms are affected by the mechanical vibrations, which damage their structures.
Chemical-Free Disinfection: No need for harmful chemicals, reducing environmental risks and costs of chemical handling.
Eco-Friendly: Prevents contamination and chemical residue release into the marine environment.
Broad-Spectrum Effectiveness: Effective against bacteria, viruses, and larger organisms like plankton.
Low Maintenance: Simple operation with minimal maintenance compared to chemical systems.
Energy-Efficient: Consumes less energy compared to some traditional methods, such as thermal treatment.
Scalability: Suitable for integration with other ballast water treatment systems, such as filtration or UV.
Marine Vessels: To meet the International Maritime Organization (IMO) Ballast Water Management Convention standards.
Port and Harbor Facilities: Onshore treatment of ballast water.
Research and Industrial Use: Studies on ballast water treatment technologies and hybrid disinfection systems.
| Item | RPS-S500 | RPS-S1000 | RPS-S1500 | RPS-S2000 | RPS-S3000 |
| Working frequency | 20kHz | 20kHz | 20kHz | 20kHz | 15kHz |
| Max power | 500W | 1000W | 1500W | 2000W | 3000W |
| Handing capacity | 0.5 to 2L/min | 0.5 to 3L/min | 0.5 to 4L/min | 1.0 to 6L/min | 1.0 to 8L/min |
| Apply | Production line, be used in combination | ||||
| Reaction tank | 10L,15L,20L,35L,stainless steel | ||||
| Working pressure | Max:5MPa | ||||
| Working temperature | Max: 350°C | ||||
The other application of ultrasonic sonochemistry
• Dispersion
• Cell disruption
• Pharmacy sample prep
• Homogenization
• Emulsification
• Nanoparticle dispersion
• Atomization
• Graphene dispersion
• Biodiesel making;
• Liquidation,
• Crystallization,
• Extraction,
• Wastewater treatment,
• Accelerated reaction,
• kill microbes(cell disruption),
• Degradation of toxic organic pollutants
• antiscaling descaling in sewage treatment field
Description
Ultrasonic Ballast Water Disinfection Equipment is a technology designed to treat ballast water on ships, preventing the spread of invasive aquatic species and pathogens. This equipment utilizes ultrasonic waves to disinfect water, offering an efficient and eco-friendly alternative to chemical or UV-based systems.
Ultrasonic Waves Generation: High-frequency ultrasonic waves (typically in the range of 20–40 kHz) are generated by transducers placed in the water.
Cavitation Effect: These waves create microscopic bubbles that implode violently, producing intense pressure, heat, and shear forces.
Destruction of Organisms:
The cavitation disrupts the cell walls of microorganisms such as bacteria, algae, and plankton.
Larger organisms are affected by the mechanical vibrations, which damage their structures.
Chemical-Free Disinfection: No need for harmful chemicals, reducing environmental risks and costs of chemical handling.
Eco-Friendly: Prevents contamination and chemical residue release into the marine environment.
Broad-Spectrum Effectiveness: Effective against bacteria, viruses, and larger organisms like plankton.
Low Maintenance: Simple operation with minimal maintenance compared to chemical systems.
Energy-Efficient: Consumes less energy compared to some traditional methods, such as thermal treatment.
Scalability: Suitable for integration with other ballast water treatment systems, such as filtration or UV.
Marine Vessels: To meet the International Maritime Organization (IMO) Ballast Water Management Convention standards.
Port and Harbor Facilities: Onshore treatment of ballast water.
Research and Industrial Use: Studies on ballast water treatment technologies and hybrid disinfection systems.
| Item | RPS-S500 | RPS-S1000 | RPS-S1500 | RPS-S2000 | RPS-S3000 |
| Working frequency | 20kHz | 20kHz | 20kHz | 20kHz | 15kHz |
| Max power | 500W | 1000W | 1500W | 2000W | 3000W |
| Handing capacity | 0.5 to 2L/min | 0.5 to 3L/min | 0.5 to 4L/min | 1.0 to 6L/min | 1.0 to 8L/min |
| Apply | Production line, be used in combination | ||||
| Reaction tank | 10L,15L,20L,35L,stainless steel | ||||
| Working pressure | Max:5MPa | ||||
| Working temperature | Max: 350°C | ||||
The other application of ultrasonic sonochemistry
• Dispersion
• Cell disruption
• Pharmacy sample prep
• Homogenization
• Emulsification
• Nanoparticle dispersion
• Atomization
• Graphene dispersion
• Biodiesel making;
• Liquidation,
• Crystallization,
• Extraction,
• Wastewater treatment,
• Accelerated reaction,
• kill microbes(cell disruption),
• Degradation of toxic organic pollutants
• antiscaling descaling in sewage treatment field
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