Algal blooms, dead zones, and toxic sediment are the visible symptoms of a deeper problem. OxyNano treats the cause β not just the appearance.
Get a Free Assessment βWarm-water surface layers prevent oxygen from reaching the bottom during summer months. Bacteria thrive in the anoxic depths, accelerating sediment decomposition and releasing phosphorus into the water column.
Elevated phosphorus feeds cyanobacteria growth. Chemical treatments kill the algae cells β but rupture releases stored cyanotoxins. The treatment makes the water more dangerous, not less.
The lake floor accumulates 1β3cm of organic sediment annually. Under anoxic conditions, this muck releases more phosphorus, creating a self-sustaining cycle that no surface treatment can break.
Oxygen nanobubbles are introduced at depth β not just the surface. The entire water column, including the bottom dead zone, receives dissolved oxygen, dismantling the stratification barrier.
Ozone nanobubbles oxidise cyanobacteria and pathogens at the cell level without rupturing them β no toxin release, no chemical residue, no closures required.
As aerobic conditions are restored at depth, decomposition replaces fermentation in the sediment layer. Phosphorus is no longer released. Muck accumulation slows, then reverses over time.
Submerged unit generating continuous oxygen and ozone nanobubbles. Sized to water volume and depth. Multiple units for large bodies.
View product specs βMulti-depth dissolved oxygen, ORP, pH, and turbidity sensors. Real-time profiling to track treatment progress at every layer.
View product specs βLive monitoring dashboard accessible from any device. Regulatory reporting and public transparency dashboards available on request.
View product specs βWe bring the sensors. Every recommendation is backed by your own baseline data β not a sales assumption.