Our Technology
Invicta Water uses proven cutting-edge Materials Science and Boron Nitride Materials combined with UV light to capture, remove, and destroy PFAS.
Boron Nitride macromaterials are excellent at removing contaminants and pollutants from water
Nanomaterials perform better than similar macromaterials
Boron Nitride nanomaterials have been demonstrated to remove PFAS from water
Boron Nitride NanoBarbs™ remove PFAS from water more effectively than traditional Boron Nitride nanomaterials
UV Energy combined with Boron Nitride nanomaterials has demonstrated the ability to destroy PFAS
This graph demonstrates how quickly PFAS is destroyed using the Invicta Water process. At time zero, the PFAS concentration is at a maximum, and after time the concentration goes to zero.
The 3 Stages:
1. Stripping – The incoming water is separated into two streams. A Waste Stream (10% of the total water volume) containing all of the PFAS is stripped from the water and sent to Stage 2 of the process. The rest of the PFAS free water (90% of the total water volume) is released into the Clean Stream.
2. Enrichment – The incoming Waste Stream is again separated into two streams - a Water Return Stream and an Enriched Waste Stream. The PFAS in the Waste Stream is concentrated to form the Enriched Waste Stream that reduces the contaminated water volume by another 90%. The Enriched Waste Stream is transferred to Stage 3 and the remaining water, now PFAS free, is returned to Stage 1.
3. Destruction – In the final stage, the PFAS molecules are destroyed, and the water is returned to Stage 2.
Boron Nitride NanoBarb™ Technology
Invicta Water utilizes BNNano’s patented Boron Nitride NanoBarb™ technologies in water purification and remediation.
Invicta Water’s Filtration Materials and Filtration Systems integrate Boron Nitride NanoBarb™ technologies into membranes and filtration media combined with UV light to CAPTURE, REMOVE, and DESTROY PFAS at the
Point of use
Centralized Treatment Locations
Groundwater Remediation Sites
Industrial Contaminant Sources