Integrating nanobubble technology into research and pilot validation systems enhances process control, experimental accuracy, and system stability. Ultra-fine bubbles improve gas–liquid interaction, enable precise parameter control, and support consistent, repeatable testing conditions.
This results in improved data reliability, reduced variability, enhanced process efficiency, and more accurate validation across research and pilot-scale studies.
Deliver higher precision and control in research and pilot systems using
next-generation nanobubble technology.
Supports controlled experimentation to evaluate and optimize treatment performance under varied conditions.
Enhances oxygen transfer efficiency analysis, enabling deeper insights into microbial activity and system behavior.
Facilitates accurate measurement of organic load removal and treatment efficiency in controlled test environments.
Improves reaction dynamics to study and enhance the degradation of complex and persistent contaminants.
Enables detailed investigation of fouling mechanisms and supports development of more effective cleaning strategies.
Delivers reliable, real-world data to support scale-up decisions and validate treatment process performance.
Delivering measurable improvements in research accuracy, process
efficiency, and pilot-scale system performance.
Enables precise nanobubble generation for consistent and reproducible research outcomes.
Supports oxygen, ozone, air, and CO₂ for diverse studies in water, wastewater, and biotechnology.
Improves gas–liquid mass transfer to strengthen biological, chemical, and oxidation-based research processes.
Delivers reliable scale-up data and integrates seamlessly into bench, laboratory, 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 | inch | -NA- | 12mm tube |
| Discharge Line Size | inch | -NA- | 12mm tube |
The system supports a wide range of applications including wastewater treatment research, biological aeration studies, oxidation processes, membrane research, fermentation, and pilot-scale validation across water and biotechnology sectors.
By generating controlled ultra-fine nanobubbles, it enhances gas–liquid interaction, ensures repeatable test conditions, and enables precise evaluation of treatment and process performance.
Yes. The system is designed for both bench-scale and pilot-scale applications, helping generate reliable data for process optimization and real-world scale-up deployment.
