Due to our use of a Superconductor Maglev system and an evacuated chamber, we do not require the use of a high pressure pump.
Using a Maglev system instead of a shaft and bearings grants the Centrifugal Reverse Osmosis system reduced friction and less frequent maintenance intervals.
The technology can be efficiently scaled up to meet the demands of larger-scale water treatment applications, such as municipal or industrial water supply.
The system has been designed to be incorporated into existing water treatment facilities and distribution networks.
The system is designed to output lower carbon emissions.
Removes all chemicals and foreign particles, including salt, medications, arsenic, lead, and bacteria.
Osmotic pressure is generated within the radial tubes due to centrifugal force from unit rotation. The water pressure increases as it is forced outward.
We use a superconducting magnet to levitate and rotate the Centrifugal Reverse Osmosis unit.
The length and diameter of the radial tubes and rotation speed can be adjusted for different environments. The number of radial tubes and the arrangement can be adjusted for capacity and floorplan requirements.
We utilize an evacuated chamber to reduce angular drag and friction from unit rotation.
Magnetic shielding, bracing, and an electronic control system that enables emergency shutoff.
Stainless-steel plumbing and other salt-resistant components.
New feedwater enters the central hub of the unit(Pipe G), is rotated, purified, collected, and flows to permeate and concentrate collection tanks continuously.