Turbiti Fusion: Nanobubble generator Overview
The Turbiti Fusion micro-nanobubble generator is designed to enhance gas-liquid mixing much more efficiently, with clear applications in water treatment, aquaculture, and various biochemical processes. What stands out is how it produces an enormous number of ultrafine bubbles every minute, billions, in fact, which significantly increase oxygenation and help dissolve gases like Nitrogen, CO₂, ozone, and even regular air.
The system is available in two main versions: the 6-, 7- and 8-series. Both use a stainless-steel pump that can withstand harsher environments. The 606 model is specifically designed for use with seawater, while the 808 can handle corrosive gases, which can otherwise be a serious headache for maintenance. For operators who need a pure, consistent oxygen supply to feed the system, pairing the Turbiti Fusion with the Oxiti-01 industrial oxygen concentrator delivers a reliable, on-demand gas source without depending on cylinder logistics. Speaking of maintenance, that's one of the draws here: the Turbiti Fusion is engineered so you don't have to constantly tinker with it.
Energy use also stays on the lower side, partly because of the variable frequency drive and a design that is more thoughtful than flashy. It's compact, doesn't demand much space, and offers a range of installation options, making it easier to slot into existing setups rather than forcing big redesigns.
In terms of performance, the Turbiti Fusion runs at 540–900 liters per hour. It operates in water temperatures from freezing to 40°C, with ambient air temperatures from -10°C to 40°C, making it versatile across most ordinary climates.
For water treatment applications that call for disinfection or oxidation, the Turbiti Fusion pairs well with the Oziti 1 g/h lab-scale ozone generator. Injecting ozone through a nanobubble generator produces a much finer, longer-lasting dispersion than conventional diffusers, maximizing contact time and treatment efficiency without increasing chemical load.
For a deeper look at how compact nanobubble generators perform in scientific and laboratory settings, see our article Compact Lab-Scale Nanobubble Generators for Scientific Use.
