Gaia Ultra-Fine Bubbles (UFB)
Redefining Gas-Liquid Interaction at the Nanoscale
Size:<100 nm (Invisible)
Charge:-40 mV Zeta Potential
Stability:Non-Coalescing
Buoyancy:Neutral (Brownian Motion)
Internal Pressure:Laplace Law
Surface Area:Exponential Contact
BEYOND THE BUBBLE: THE PHYSICS OF THE NANOSCALE
THE OLD STANDARD:
CHAOTIC & TRANSIENT
Burst Immediately
Microbubbles (approx 30mm)
Rise to Surface (Chaotic)
Low Internal Pressure
Inefficient Transfer
THE NEW PHYSICS: STABLE & BUOYANT
< 100nm Diameter
Neutrally Buoyant (Suspended)
High Internal Pressure
Negative Zeta Potential
Gas
Water Flow
Turbulent Flow
OPTIMIZED INJECTION STRATEGY
RAW INFLUENT
SCREENING
EQ TANK
COAGULATION
FLOCCULATION
DAF
BIOLOGICAL TREATMENT
OPTION A: RAW INFLUENT
Early breakdown of surfactants
OPTION B: CONDITIONING
Maximizing floc formation
From Flotation to Coagulation
1. Attachment:
NBs target sub-20μm particles that microbubbles miss.
2. Nucleation:
Formation of gas-solid composite nuclei.
3. Bridging:
Nanobubbles link particles, creating microflocs with density < water.
-
Collision probability approaches unity.
-
Removes reliance on chance contact.
Unlocking Biological Efficiency
The Invisible Bottleneck
Surfactant films reduce oxygen transfer (kLa) by up to 50%.
The Fix: UFBs strip films
The Barrier: Surfactant films reduce oxygen transfer (kLa)
by up to 50%.
The Fix: UFBs strip films via interfacial tension and oxidation. Interfacial Tension
The Domino Effect: Removal of inhibitors > Higher Alpha Factor >
Optimized Bacterial Respiration
Economic Impact & ROI
20 to 40%
10 to 25%
25 to 30%
12 - 24 月
Energy Savings (Blowers & Mixers)
Sludge Volume Reduction
Chemical Savings (Acids/Polymers)
Typical ROI Payback Period