NanoFX™ Micro–Nano Bubble Generator

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Product Detail

The NanoFX™ Micro–Nano Bubble Generator is a compact laboratory system that dissolves gas into liquid with exceptional efficiency by producing ultrafine bubbles in the 10–100 nm range. Unlike ordinary large bubbles, which rise and escape quickly, nano-bubbles remain suspended longer and increase gas–liquid contact time, supporting 95–99% gas-dissolution efficiency with air, oxygen, ozone, hydrogen, carbon dioxide, nitrogen, or mixed gases. The three interactive tools below let you see exactly why bubble size matters — and which model fits your work.

Why micro–nano bubbles?

A bubble’s behavior is governed almost entirely by its size. A large millimetre-scale bubble is dominated by buoyancy: it shoots to the surface and bursts within seconds, so most of the gas is lost to the air. As bubbles shrink, buoyancy falls away dramatically — rise speed scales with the square of the radius — until, at the nanometre scale, bubbles barely move at all. Nano-bubbles therefore remain suspended much longer than conventional bubbles, presenting more combined surface area for gas transfer and keeping gas in contact with the liquid well after ordinary aeration would have gone flat. Press play in the comparison below.

Long-term stability and dissolution

The practical payoff of that suspension is longer gas–liquid contact. Because nano-bubbles are designed to stay suspended rather than rising and bursting, they remain in the liquid as a fine, evenly distributed cloud instead of escaping at the surface. This is what supports the NanoFX™ generator’s 95–99% gas-dissolution efficiency and steady gas–liquid ratio of 1–15%. The simulator below fast-forwards an hour so you can compare how much gas ordinary aeration loses versus how much nano-bubbles retain.

Compare models and find your fit

NanoFX™ is offered in several models that differ mainly in water-output and gas-inlet flow rate, plus optional “(F)” versions rated for a wider pH range (0–14) for corrosive liquids. Use the selector below to match a model to your throughput and pH requirements; every figure shown is taken directly from the specifications.

Key features

10–100 nm bubbles. Ultrafine bubble size for maximum surface area and long suspension time.
95–99% dissolution. Highly efficient gas transfer, with a stable 1–15% gas–liquid ratio.
Many gases. Air, oxygen, ozone, hydrogen, carbon dioxide, nitrogen, or mixed-gas sources.
Corrosion-resistant. Wetted parts in SUS304 / SUS316L stainless steel and PTFE; (F) models are rated for pH 0–14.
Self-priming intake. Draws gas automatically; an external gas-source port allows easy switching.
24-hour operation. Industrial-grade design for stable, continuous, non-intermittent running.
Intelligent control. CPU control board with digital display, remote control, and timer modes.
Compact & portable. Small footprint (400×255×380 mm) and low water volume, ideal for the lab bench.

Potential applications

Water & wastewater

Aeration, oxygenation, and ozone-based treatment with high gas-transfer efficiency.

Aquaculture

Dissolved-oxygen enrichment for fish and shrimp tanks and recirculating systems.

Agriculture & hydroponics

Oxygen- and CO₂-enriched water for root health, irrigation, and growth studies.

Surface cleaning

Nano-bubble water is explored for cleaning delicate parts with reduced chemical use.

Ozone & oxidation

Ozone dissolution studies and oxidation-related research.

Materials & lab R&D

Controlled gas–liquid contacting for flotation, reaction, and process studies.

Specifications

Model	NFX-NM-500ML	NFX-NM-1000ML	NFX-NM-200L	NFX-NM-500ML(F)	NFX-NM-1000ML(F)
SKU#	EMNBG250	EMNBG310	EMNBG320	EMNBG25F	EMNBG31F
Water output flow rate	500 mL/min	1000 mL/min	2000 mL/min	500 mL/min	1000 mL/min
Gas inlet flow rate	5–60 mL/min	10–130 mL/min	20–300 mL/min	5–60 mL/min	10–130 mL/min
Power	220 W	230 W	240 W	150 W	170 W
pH range	4–10	4–10	4–10	0–14	0–14
Weight	13 kg	13 kg	15 kg	16 kg	17 kg

Bubble size range	~10–100 nm
Gas types	Air, oxygen, ozone, carbon dioxide, nitrogen, and mixed gases, etc.
Gas inlet method	Self-priming air intake
Gas dissolution efficiency	95–99%
Gas–liquid ratio	1–15%
Size	400 × 255 × 380 mm
Voltage	220 V / 50 Hz
External gas inlet port	Ø 8 × 5
Water inlet / outlet port	Ø 12 × 8 / Ø 8 × 5
Control method	Digital display (timer control available)
Protection functions	Short-circuit, overcurrent, overvoltage, and fault protection
Insulation class / Protection rating	Class F / IP55

Note: Due to continuous technological updates, the above specifications are for reference only. Customization is available according to user requirements.

Frequently asked questions

What is a micro–nano bubble?

Micro–nano bubbles are extremely small gas bubbles — the NanoFX™ system produces them in the 10–100 nm range. Because they are so small, buoyancy barely affects them, so instead of rising and bursting like ordinary bubbles they remain suspended in the liquid much longer, increasing gas–liquid contact time.

Why are nano-bubbles more efficient than ordinary aeration?

A given volume of gas split into nano-bubbles has a vastly larger total surface area, and the bubbles remain in contact with the water far longer. Together these give the NanoFX™ generator 95–99% gas-dissolution efficiency, compared with conventional bubbling where most gas escapes at the surface within seconds.

Which gases can the NanoFX™ generator use?

Air, oxygen, ozone, hydrogen, carbon dioxide, nitrogen, and mixed gases. Gas is drawn in by self-priming intake, and a reserved external gas-source port makes it easy to switch between different gases.

How do I choose between the models?

Start with the water throughput you need — 500, 1000, or 2000 mL/min — then consider your liquid’s pH. Standard models cover pH 4–10; the (F) models are rated for a wider pH range (0–14) for corrosive liquids. The interactive selector above recommends a match based on these inputs.

What does the (F) suffix mean?

The (F) models are rated for a wider pH range, making them suitable for strongly acidic or alkaline liquids across pH 0–14, where the standard models are rated for pH 4–10.

Can it run continuously?

Yes. The NanoFX™ generator is built to industrial-grade standards for stable, non-intermittent 24-hour operation, with short-circuit, overcurrent, overvoltage, and fault protection, an IP55 rating, and Class F insulation.