The NICO LSM Nanobubble System is designed for research, experimental studies, and pilot-scale validation. Ultra-fine nanobubbles enable precise gas delivery and enhanced gas-liquid interaction for accurate testing across oxidation, biological treatment, and process development.
Ideal for universities, R&D centers, laboratories, and pilot plants, it ensures reliable data generation and efficient process optimization.
Enhancing research accuracy and pilot system performance with
advanced nanobubble technology.
Enables controlled studies to evaluate and optimize treatment performance.
Improves oxygen transfer analysis for enhanced microbial activity research.
Supports accurate assessment of organic load reduction efficiency.
Enhances reaction conditions for effective contaminant degradation research.
Helps analyze fouling behavior and improve membrane cleaning strategies.
Provides reliable data for scaling up treatment and process technologies.
Measurable improvements in research accuracy, process efficiency, and
overall pilot system performance.
Enables precise nanobubble generation for consistent and repeatable research outcomes.
Supports oxygen, ozone, air, and CO₂ across water, wastewater, and biotech studies.
Improves gas-liquid mass transfer for biological, chemical, and oxidation research.
Generates reliable scale-up data and integrates easily into bench and pilot-scale systems.
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| Models | Units | NICO LSM 0.05 | NICO LSM 0.4 |
|---|---|---|---|
| Flow Rate | m³/hr | 0.054 | 0.36 |
| LPH | 54 | 360 | |
| System Pressure | bar | 2 | 1.4 |
| Nanobubble Size | nm | 50-200 | 50-200 |
| Zeta potential | mV | up to -43 mV | up to -43 mV |
| Gas usage | Air, Oxygen | Oxygen | |
| Oxygen Flow Rate | LPM | 0.7 | 1.2 |
| Oxygen Pressure | PSI | >7 | >7 |
| Ozone Flow Rate | GPH | -NA- | -NA- |
| Ozone Pressure | PSI | -NA- | -NA- |
| Suction Line Size | Millimeter | -NA- | 12mm tube |
| Discharge Line Size | Millimeter | -NA- | 12mm tube |
The system supports a wide range of applications including wastewater treatment research, biological aeration studies, oxidation processes, membrane studies, fermentation, and pilot-scale validation across water and biotech sectors.
By generating controlled ultra-fine nanobubbles, it enhances gas–liquid interaction, ensures repeatable conditions, and enables precise evaluation of treatment and process performance.
Yes, the system is designed for both bench-scale and pilot-scale use, helping researchers generate reliable data for process optimization and real-world deployment.
