High-Capacity Nano Bubble Generator

Built for Scale. Engineered for Power. Designed for Results.

The High-Capacity Nano Bubble Generator is developed for large-scale water treatment applications where volume and distribution are key. Utilizing pressure-dissolution and swirl-flow principles, this system generates nano bubbles at high throughput while maintaining excellent gas transfer efficiency.

Its internal design creates a powerful mixing environment that ensures uniform distribution of nano bubbles across large water bodies. This makes it highly effective for lakes, reservoirs, wastewater systems, and industrial applications where consistent performance is required across significant volumes.

Built with durability in mind, the system is designed to operate reliably under demanding conditions while delivering long-term results. It provides the strength and capacity needed for projects where performance cannot be compromised.

The High-Capacity Nano Bubble Generator is a high performance nanobubble generation system designed for water treatment, agriculture, environmental remediation, livestock water, industrial processes, and aquaculture.

Based on enhanced static mixer and swirl flow technology, the generator system efficiently mixes gas and water to generate ultra fine nanobubbles with exceptional stability and gas transfer efficiency.

Unlike conventional aeration and injection systems that rely on high pressure, moving parts, or surface agitation, the Nano Generator operates with low hydraulic head, no moving components, and minimal maintenance, making it suitable for continuous operation in demanding industrial and environmental environments.

Core Technology

The system is based on advanced static mixing principles originally developed for liquid to liquid mixing and adapted for gas to liquid nanobubble generation

Key elements of the technology include:
  • Proprietary swirl flow static mixer geometry
  • High shear and controlled turbulence inside the mixer
  • Efficient gas breakup into nano scale bubbles
  • Low pressure loss compared to high head nanobubble systems
  • Stable nanobubble formation without mechanical wear parts

This design allows the system to treat large water volumes efficiently, even in water containing suspended solids.

Key Characteristics
  • Generates billions of nanobubbles with long suspension time
  • No moving parts → low maintenance and long service life
  • Operates at low pressure / low energy demand
  • Compatible with oxygen, air, ozone, and other process gases
  • Handles water with suspended particles (up to industrial tolerance)
  • Available for freshwater and seawater
  • Suitable for continuous, inline, or submersible operation
  • Scalable from small systems to large industrial installations
Nanobubble Behavior in Water

Nanobubbles generated by the system behave fundamentally differently from conventional bubbles:

  • Nanobubbles remain suspended instead of rapidly rising to the surface
  • Extremely high gas–liquid contact area
  • Improved gas dissolution and retention
  • Oxygen or ozone is delivered throughout the water volume, not just near the injection point

Because of this behavior, gas remains available in the water column for extended periods, supporting biological, chemical, and physical processes more effectively than traditional aeration methods.

Effects on Water Quality

  • With High-Capacity Nano Bubble Generator
  • Uniform oxygen or ozone distribution
  • Reduced anaerobic zones
  • Improved oxidation–reduction potential (ORP)
  • Enhanced microbial and biological activity
  • Accelerated breakdown of organic matter, sludge, and biofilm
  • Improved clarity and odor reduction
  • With Conventional Aeration or Injection
  • Gas escapes quickly at the surface
  • Limited treatment depth
  • High energy consumption
  • Uneven water quality and dead zones
  • Mechanical wear and higher maintenance

Application Areas

  • Water & Wastewater Treatment
  • Aeration of municipal and industrial wastewater
  • Support of aerobic biological treatment processes
  • Sludge and organic load reduction
  • Odor control in lagoons and basins
  • Biofilm reduction in pipes and tanks
  • Enhancement of dissolved air flotation (DAF) performance
Environmental Remediation
  • Lake and pond restoration
  • Reduction of bottom sludge and “muck”
  • Improvement of dissolved oxygen in stagnant water bodies
  • Suppression of anaerobic conditions
  • Support of natural biodegradation processes
  • Algae control through improved water chemistry (non chemical approach)
Agriculture & Horticulture
  • Oxygen enriched irrigation water
  • Improved root zone oxygen availability
  • Enhanced nutrient uptake
  • Reduction of biofilm in irrigation lines
  • Support of greenhouse and high value crop production
  • Stabilization of water quality in irrigation reservoirs
Livestock & Drinking Water Systems
  • Oxygen enhanced drinking water for livestock
  • Improved water freshness and stability
  • Reduction of anaerobic bacterial growth
  • Support of animal health through improved water quality
  • Suitable for poultry, cattle, swine, and mixed operations
Aquaculture (Freshwater & Marine)
  • Stable oxygen delivery in tanks, ponds, and RAS systems
  • Reduced stress on aquatic organisms
  • Improved feed efficiency and survival rates
  • Effective operation in both shallow and deep installations
  • Compatible with high density farming systems

Industrial & Process Water

Inline gas injection for industrial water systems Ozone nanobubble generation for:

  • Disinfection
  • Cleaning
  • Deodorization
  • Advanced oxidation processes
  • Reduced chemical consumption
  • Improved process consistency
  • Reliable operation in harsh environments

Energy & Operating Characteristics

  • Low head loss reduces pumping energy requirements
  • No mechanical aerators or blowers required
  • Minimal maintenance due to static design
  • Continuous or intermittent operation depending on application
  • Designed for long term industrial duty cycles

Nanobubbles and Measurement

Standard dissolved oxygen (DO) meters measure only dissolved oxygen, not suspended nanobubbles.

In System equipped systems:
  • Oxygen or gas exists as both dissolved gas and suspended nanobubbles
  • Gas availability may be higher than DO readings alone suggest
  • This dual presence supports system stability during high load or temperature fluctuations

System Integration

The High-Capacity Nano Bubble Generator integrates easily into existing systems:

  • Inline installation in recirculating loops
  • Submersible configurations for ponds and reservoirs
  • Compatible with standard pumps and piping
  • Often paired with oxygen or ozone generators for complete gas delivery systems

The High-Capacity Nano Bubble Generator is a versatile, energy efficient solution for gas delivery in water across environmental, agricultural, industrial, municipal, and aquaculture applications.

By generating stable nanobubbles using low pressure static mixer technology, the system delivers gas more effectively, improves water quality, reduces energy consumption, and supports sustainable long term operation, without the complexity and maintenance burden of conventional aeration systems.

Puroxi Nano Bubble Nozzle
Nano Bubble Column
Nano Bubble Generator
Comparison Of All Three Systems

Best Water Solutions Provider Awards

Puroxi Pure Water Global Inc was shortlisted for the awards category, Water Solutions Provider of the Year! As highlighted, it was some good news. I can confirm you that you have been chosen as the 2023/24 winners. Congratulations Zak! The generic winner’s logo has been attached which you can utilize to promote the recognition and the official press release will be conducted in March (defined date to come

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