At Innoflex, we are committed to revolutionizing air treatment in agricultural settings with our cutting-edge systems. Our advanced technology utilizes a photocatalytic process activated by light, efficiently breaking down ammonia and other pollutants into harmless gases.
The agricultural sector faces significant challenges related to air quality, particularly the presence of harmful pollutants such as ammonia (NH3) and nitrogen oxides (NOx) in farm environments. These pollutants not only pose health risks to animals and farmworkers but also contribute to broader environmental issues, including the nitrogen crisis. Traditional methods of managing these pollutants often rely on chemical treatments, which can be costly and environmentally harmful. Furthermore, compliance with increasingly stringent environmental regulations adds an additional layer of complexity for farmers striving to maintain profitable operations.
InnoFlex offers an advanced air purification system that utilizes photocatalysis to convert harmful pollutants like ammonia and nitrogen oxides into harmless compounds using only light and a specialized active material. This technology not only helps farmers comply with environmental regulations but also improves air quality in livestock stables, leading to faster animal growth, reduced mortality rates, and overall better farm productivity. The InnoFlex system provides a measurable, chemical-free solution that benefits both the environment and the agricultural business, making it a vital tool for modern, sustainable farming.
Our cutting-edge technology uses light to activate a catalyst, setting off a chain reaction that efficiently breaks down harmful emissions. We utilize photocatalytic materials that function similarly to solar cells. While solar cells convert light into electricity, our materials use light to create redox reactions. When light hits the catalyst, it generates free electrons, which then produce energetic particles. These particles react with and neutralize the harmful emissions, breaking them down into less harmful components.
The initial part of this process leverages the same mechanisms as those used in solar cells, which is key to our efficiency. The secret to making highly effective photocatalysts lies in optimizing these materials. By applying advanced deposition technologies—similar to those used in the production of high-efficiency solar cells—we can finely tune the properties of our photocatalytic materials.
