What is Nanopac?
How Nanopac technology compares
An example of our technology benchmark illustrated below as compare to other available solutions.
|
Hepa Filter |
Electro - static |
Ionizer |
Ozone |
Ultra Violet Light |
Nanopac Technology |
Bacteria |
Poor |
Good |
Poor |
Good |
Good |
Excellent |
Fungi |
Poor |
Good |
Poor |
Good |
Good |
Excellent |
Dust Mites |
Poor |
Poor |
Poor |
Poor |
Good |
Excellent |
Gases |
Poor |
Poor |
Poor |
Good |
Good |
Excellent |
Mold |
Poor |
Good |
Poor |
Good |
Good |
Excellent |
Odours |
Poor |
Good |
Good |
Good |
Poor |
Excellent |
Smoke |
Good |
Good |
Excellent |
Good |
Poor |
Good |
VOCs |
Poor |
Poor |
Poor |
Good |
Good |
Excellent |
HEPA Filter
High Efficiency Particle Arresting filters are commonly used for improving indoor air quality. With proper ventilation and depending on the size and quality of the filtration system they can remove up to 99.99% of particles in the air. However they are not effective against bacteria, viruses, mold or any other fungi.
Electrostatic Filtration
Electrostatic filters use a negatively charged surface to attract particles. They are more effective than most HEPA systems in trapping micron particles and can clear smoke from the air. When used in combination with ozone they can neutralize some odors, bacteria, mold and other fungi that come in contact with the filter.
Ionization
By producing negative ions that cause suspended particles to cling to walls, floors, and other surfaces Ionizers can be effective in reducing dust and other particles from the air.
Ozone
Ozone is a powerful oxidizer that can neutralize mold, odors, bacteria and other fungi but is not effective against dust mites and other particles
UV Light
By sterilizing air and surfaces that come in contact with the UV light Special UV germicidal lamps are effective for disinfecting purposes. The UV light inactivates bacteria and viruses
and prevents them from reproducing
NANO Photocatalysis TiO2
Nano Photocatalyst Technology is the most powerful air purification and self cleaning technology for Indoor environments. When Nano Photocatalyst (TiO2) captures ultraviolet light it forms activated oxygen from water or oxygen in the air. The formed activated oxygen actively decomposes organic materials, biological pollutants, bad odors, dust mites and kills bacteria, viruses, mold and other fungi.
It is a pro-active treatment that addresses the causes at their source. With the existences of the proper wavelength of light, this decomposition process is further expedited and any harmful substances that stick on the surface are completely broken down into carbon dioxide (CO2) and water (H2O).
NANOPAC'S Technology Utilizing state-of-the-art Nano-Technology, Nanopac has developed a technology that can be applied across wide industries. Delivering a powerful self-cleaning solutions for Indoor and Outdoor applications, which actively decompose bacteria, biological and chemical pollutants & toxins, bad odors, mold and other fungi once they come in contact with any surface that has been embedded with our technology.