At Innoflex, we are committed to revolutionizing air treatment with our cutting-edge systems. Our systems are made for applications in agriculture and the semiconductor industry, where they not only lower environmental impact but also reduce operational costs.
Agriculture is facing significant challenges related to air quality, particularly due to emissions of ammonia (NH3) and nitrogen oxides (NOx) from livestock and farming activities. These pollutants contribute to environmental issues such as the nitrogen crisis, which is particularly pressing in regions like the Netherlands.
Our advanced photocatalytic technology offers a powerful solution for reducing these harmful emissions. Using light to activate a specially engineered catalyst, our system breaks down ammonia, nitrogen oxides, and other volatile organic compounds (VOCs) into harmless components like nitrogen and water. This process not only improves air quality but also aligns with environmental regulations, helping farmers comply with increasingly stringent legislation.
The semiconductor industry is a significant source of Fluorinated Greenhouse Gases (F-GHGs), which have a global warming potential up to 24,000 times greater than carbon dioxide. Our innovative solution targets these harmful emissions using advanced technology that relies on light energy instead of thermal energy. This approach allows us to efficiently break down F-GHGs without the need for the high energy consumption associated with heating gases to extreme temperatures, such as 1000°C.
What sets our solution apart is its scalability and practicality. It can be implemented in a compact space, requiring only the area of about two shipping containers for a large semiconductor facility. This makes it an ideal choice for reducing emissions while minimizing operational costs and space requirements.
The semiconductor industry is a significant source of Fluorinated Greenhouse Gases (F-GHGs), which have a global warming potential up to 24,000 times greater than carbon dioxide. Our innovative solution targets these harmful emissions using advanced technology that relies on light energy instead of thermal energy. This approach allows us to efficiently break down F-GHGs without the need for the high energy consumption associated with heating gases to extreme temperatures, such as 1000°C.
What sets our solution apart is its scalability and practicality. It can be implemented in a compact space, requiring only the area of about two shipping containers for a large semiconductor facility. This makes it an ideal choice for reducing emissions while minimizing operational costs and space requirements.