Nanotechnology
Our Nanotechnology
Osagi nanotechnology harmoniously emulates natural tree respiration, drawing inspiration from chlorophyll photosynthesis. Photocatalysis is a promising technology to solve the environmental problems caused by organic e inorganic pollutants, a serious threat to the ecosystems and human health.
Principle of Nanotechnology
Photocatalytic (PCO) technology has been demonstrated to be one of the “green” andeffective strategies for the environmental remediation. It is the process thatchanges photonic energy into chemical energy that is able to transform the air pollutioninto harmless substances.
Photocatalysis, it effortlessly converts pollutants into harmless substances. Its sustainable advantage lies in its non- consumable nature, eliminating the need for replacement and promoting long-term effectiveness.
How PCO Works
Photocatalysis, it effortlessly converts pollutants into harmless substances. Its sustainable advantage lies in its non- consumable nature, eliminating the need for replacement and promoting long-term effectiveness. PCO is a process based on the production of oxidative radicals activated by light.
Filters coated with nanoparticles produce hydroxyl radicals when exposed to a source of UV light. Then, theradicals adsorbe the organic and inorganic air pollutans and oxidize them into a harmless compound assolid residuals and water vapor.
Inspired by chlorophyll photosynthesis, Osagi simulates the “breath” of plants.
The Nanotechnology destroys the pollutants using a chemical reaction called Photocatalysis that transforms it into a harmless substance deposited on the surface of filter. The filter does not need to be replaced, as nanotechnologies are not consumed during the purification process. Photocatalysis generated by nanotechnology attached to the surface of the filter releases a large number of highly reactive free radicals with high oxidative power into the air. Pollutant molecules are intercepted and attacked by the free radicals, transforming them into harmless solid substances that are deposited on the surface of the filter.
How Photocatalysis Works
Actiovation nanoparticals
UV light activates the nanotechnologies applied on the filter
Free radical production
The activated nanoparticles produce free radicals from water molecules presents in the air
Oxidation pollutants
The free radical attack the pollutants and start the oxidation process
Pollutants decompositing
The pollutants are trasformed into harmfull particles
Nanotechnology Filter
Osagi has pioneered an advanced filter, integrating proprietary nanocatalysts and honeycomb filtration to effectively eliminate pollutants from the air.
Filter Material & Geometry
The photocatalyst is coated onto the surface of a honeycomb-shaped filter. As air passes through the channel of the filter structure, the nanocatalyst is activated by the light, reacts with the pollutants, breaking them down into less harmful compounds.
High Purification
Pollutant molecules traverse the channel, they encounter free radicals generated by the nanocatalyst, initiating an oxidation process that transforms them into harmless solid substances. These transformed particles are then deposited on the surface of the filter.
Sustainability
The nanotechnology filters boast a maintenance-free feature, eliminating the need for periodic replacements. The applied nanotechnologies on the filter remain inert in the chemical reaction, ensuring they are not consumed during the process.
Versatile Shape & Size
Nano Filters can be customized to any shape and size, ensuring both purification efficiency and durability are maintained.
Unique Features
Based on his proprietary Nano Filters, Osagi is a leading innovator in the development of comprehensive emission reduction and control systems designed to address various environmental conditions and usage scenarios.
Scalability
Dirac’s air purification system can be scaled according to the amount of pollutants to be removed and the volume of air to be cleaned.
Versatility
Osagi can design any filtration system, customized to the selected sector thanks to its distinctive know-how.
Smart
Using machine learning systems, the purification performance is optimized over time according to pollution concentration and utilization.
Connectivity
Air purification system is equipped with a module for a worldwide IoT connection and total wi-fi remote control.
