AEGIR IMPULSE
Aegir Impulse is based on advanced electromagnetic waveform generation that affects the structure of the water flow in real-time. Through carefully designed signals, a very fast and controlled pulse pattern is created in the water.
The core of the technology is microcavitation – small, local pressure changes that occur when electromagnetic impulses interact with the water flow. These microscopic implosions temporarily break down the structure of water molecules and generate nanobubbles, smaller than 200 nanometers.
These stable bubbles have a negative surface charge that keeps them suspended in the liquid and interact with organic matter, biofilm, and minerals. They increase the amount of reactive oxygen, have a naturally sterilizing effect, and break down deposits in piping systems.
When the nanobubbles bind to calcium ions, lime is converted to aragonite – a softer and more soluble crystalline form that does not adhere to pipes. Iron oxides are similarly affected and can be transformed into magnetite, providing effective corrosion protection.
Aegir Impulse creates this entirely without added gas, chemicals, or pressurization.
What are nanobubbles?
Nanobubbles are ultra-fine gas bubbles that, unlike regular bubbles, do not rise to the surface. They are held in the liquid thanks to their small size and negative surface charge. This makes them stable yet highly reactive.
Properties:
• Increases reactive oxygen and gas solubility
• Reduces biofilm, deposits, and microbial activity
• Binds to particles and minerals, e.g., calcium and iron
• Promotes the formation of aragonite and magnetite
The role of the Impulse system
The Impulse unit is installed directly on the water pipe and operates without interfering with pressure, flow, or temperature. It consists of:
• A signal unit that generates electromagnetic waves
• A coil design that transfers the signals to the water flow
• A robust casing suitable for both residential and industrial use
The result is improved water quality, reduced maintenance, and protection against lime and corrosion with low energy consumption and high operational reliability.
