What are the different applications of Aluminum-based Photocatalyst Filter Mesh in industrial and residential environments?

The Aluminum-based Photocatalyst Filter Mesh combines the advantages of photocatalyst technology and aluminum-based materials, becoming an innovative product in the current air purification field. It can not only effectively remove pollutants and odors in the air, but also significantly improve indoor air quality and is suitable for a variety of environments and equipment. According to a study by the International Journal of Environmental Science and Technology, the unique design of this filter has shown great application potential and market prospects in both industrial and residential environments.

Technical Background

Photocatalyst technology:
Photocatalyst technology uses ultraviolet or visible light to activate the catalyst surface, causing it to produce strong oxidizing free radicals (such as hydroxyl radicals OH). These free radicals have extremely strong oxidizing ability and can decompose harmful gases and organic matter in the air, such as formaldehyde, benzene, ammonia, etc. Through photocatalytic reactions, pollutants are converted into harmless water and carbon dioxide, which not only removes harmful substances but also improves air quality. The photocatalyst material used in photocatalyst filters is usually titanium dioxide (TiO₂), which has extremely high stability and long-lasting purification ability.
Aluminum-based materials: 
Aluminum-based materials are widely used in many fields due to their light weight and corrosion resistance. Aluminum's high temperature resistance enables it to work stably and for a long time in complex industrial environments, while its excellent thermal conductivity and oxidation resistance ensure that the photocatalyst filter will not fail for a long time. In addition, aluminum-based filters have high mechanical strength and wear resistance, and are suitable for various air purification equipment, especially in heavily polluted industrial environments.

Industrial environment application

Air purification equipment:
In the industrial field, aluminum-based photocatalyst filters are widely used in air purifiers and fresh air systems, especially in industrial places such as factories and workshops. These places usually have a large amount of pollutants such as volatile organic compounds (VOCs), harmful gases and dust, which may affect the health of employees. Aluminum-based photocatalyst filters can efficiently remove harmful substances in the air and maintain good air quality, thereby improving the working environment of employees and reducing health risks. Especially in places such as chemical plants and automobile manufacturing plants that need to deal with chemical waste gas, this filter plays a very important role.
Odor control:
Many industrial production processes produce unpleasant odors, such as chemical odors, grease odors in food processing, and odors in garbage disposal. Aluminum-based photocatalyst filters can effectively decompose these organic matter and eliminate odors through photocatalytic technology. Especially in industries such as chemicals, food processing and garbage disposal, filters can improve workers' comfort and work efficiency by removing odor sources and maintaining a clean, odor-free air environment.

Residential environment applications

Home air purifiers:
In home environments, aluminum-based photocatalyst filters are often integrated into air purifiers to help remove harmful substances in indoor air, such as formaldehyde, toluene, ammonia, etc. These harmful substances usually come from newly renovated furniture, paints, detergents, etc., and long-term exposure to these substances may have an impact on health. The use of aluminum-based photocatalyst filters can significantly reduce these harmful substances and provide fresher and healthier air, especially for families with infants, the elderly or allergic constitutions.
Air conditioning and fresh air systems:
As families pay more attention to air quality, more and more families are beginning to use aluminum-based photocatalyst filters in air conditioning and fresh air systems. It can effectively purify indoor air and reduce harmful gases and bacteria in the air, thereby continuously improving the air quality of the living environment. Especially in cities with severe air pollution or areas with poor seasonal air quality, the use of air conditioning and fresh air systems combined with aluminum-based photocatalyst filters can not only improve the freshness of the air, but also reduce allergic symptoms and respiratory problems.

Product Advantages

High-efficiency purification:
Aluminum-based photocatalyst filters have high-efficiency air purification capabilities, with formaldehyde purification rates ≥88.2% and toluene purification rates ≥90%. They can significantly remove harmful substances in the air, quickly decompose harmful gases through photocatalytic reactions, provide fresher air, and greatly improve the air quality of living and working environments.
Low resistance design:
In order to ensure efficient operation of the equipment, the aluminum-based photocatalyst filter adopts a low resistance design with a resistance of ≤6 Pascals. This design ensures smooth air circulation, which can not only purify the air efficiently, but also does not affect the normal operation of the air purification equipment, and optimizes the energy efficiency and performance of the equipment.
Diversified specifications:
Aluminum-based photocatalyst filters have complete specifications, with hole side lengths ranging from 1.5mm to 5mm, and filter material thickness ranging from 4mm to 20mm. They can be customized according to different equipment requirements to meet the requirements of different application scenarios. Whether it is large-scale industrial equipment or household air purifiers, you can find suitable filter products.
UV compatibility: 
This filter is compatible with ultraviolet rays with a wavelength of 253-365nm. Under ultraviolet light, the photocatalytic reaction efficiency of the filter is enhanced, further improving the air purification effect. With the assistance of ultraviolet light, the filter can decompose harmful substances in the air more efficiently and in a shorter time, achieving better purification effect.

Market Prospects

As people pay more attention to air quality, especially after the epidemic, the market demand for air purification products continues to increase. As a new type of air purification material, the market demand for aluminum-based photocatalyst filters is expected to continue to grow. Especially in many fields such as industry, medical care, and housing, such efficient and environmentally friendly filter products will become the mainstream choice in the future. Through cooperation with universities, our company has conducted multiple tests in the laboratory on the effectiveness of photocatalysts and the decomposition of volatile organic compounds (VOCs) such as formaldehyde, benzene, and ammonia. The test results show that our photocatalyst products have significant high efficiency, far exceeding the performance of common products on the market. If you are interested in this, please feel free to consult and we will provide you with more detailed information.