I. Cleanrooms and Industrial Manufacturing Fields
As a core filtration component in industrial clean environments, ultra-low resistance and high-efficiency filtration units, with their advantages of low air resistance and high dust-holding capacity, are widely adapted to various precision manufacturing scenarios.
In the electronic semiconductor industry, clean workshops (Class 1000-Class 10000) for chip manufacturing, PCB production, and semiconductor packaging use these filtration units to intercept particles larger than 0.5μm. This reduces air conditioning energy consumption by 20%-30% compared to traditional units and prevents circuit short circuits and loss of photolithography accuracy due to dust.
In precision machinery and automotive manufacturing, these filtration units serve high-end machine tool workshops, automotive electronic production lines, and clean engine assembly areas by filtering metal chips, oil mists, and dust. This ensures precision, assembly reliability, and extends equipment life.
Medical device and pharmaceutical industry: Applied in clean workshops for medical devices (such as surgical instrument production, assembly of implantable medical devices), API (Active Pharmaceutical Ingredient) production areas in the pharmaceutical industry, and formulation workshops, it complies with GMP standards, intercepts microorganisms, dust, and fiber impurities, and ensures the sterility and purity of products.
Ii. HVAC and Building Ventilation fields
Focus on the ventilation and purification needs of commercial buildings and public Spaces, taking into account both filtration efficiency and energy consumption optimization.
Commercial complexes and office buildings: Integrated into the central air conditioning fresh air system, it is used for air purification in office areas, shopping malls, and hotel rooms. It can effectively filter PM2.5, pollen, bacteria, and other pollutants (with a filtration efficiency of F7-F9 grades). Meanwhile, the low air resistance design reduces the operating load of the fan, lowers building energy consumption, and improves indoor air quality (IAQ).
Hospitals and medical institutions: Fresh air and return air filtration systems suitable for hospital outpatient departments, wards, and operating rooms, especially for infectious disease hospitals or respiratory wards. They can intercept droplet nuclei and pathogen carriers, reducing the risk of cross-infection. Moreover, they have a large dust holding capacity and a long replacement cycle (usually 6-12 months), lowering operation and maintenance costs.
Data center: A precision air conditioning filtration system for server rooms, filtering dust and fibers in the air to prevent overheating and shutdown caused by dust accumulation on server motherboards and heat dissipation modules. The low resistance feature ensures the efficiency of the air conditioning supply and maintains a constant temperature and humidity environment in the server room.
Iii. Food and Beverage and Agricultural Product Processing SectorMeet the sanitary filtration requirements for food production to ensure product safety and shelf life. Food processing workshop: Ventilation systems for clean areas applied in the production of baked goods, meat products, and dairy products, filtering microorganisms, dust, hair, and other contaminants in the air, in compliance with food safety production standards (such as HACCP), and preventing secondary contamination of products.
Beverage and drinking water industry: Fresh air filtration for filling workshops in the production of bottled water, fruit juice, and carbonated beverages, intercepting particles and microorganisms in the air to prevent beverage contamination during the filling process. Meanwhile, the low air resistance design is suitable for the ventilation requirements of high-speed production lines.
Deep processing of agricultural products: Suitable for ventilation and purification in dehydrated vegetable, grain processing, and nut roasting workshops, filtering dust, debris, and external pollutants, improving the working environment of the workshop, avoiding the risk of dust explosion, and ensuring product purity.
Iv. New Energy and Environmental Protection Field
Filtration scenarios that meet the clean requirements of new energy production and environmental protection governance:
New energy manufacturing: Clean workshops for the production of photovoltaic cells, lithium batteries, and fuel cells, filtering dust and metal particles in the air to prevent battery short circuits and performance degradation. At the same time, the low energy consumption feature is in line with the green development concept of the new energy industry.
Waste gas treatment and environmental protection equipment: As a pre-filtering unit for industrial waste gas treatment equipment (such as activated carbon adsorption boxes, photocatalytic equipment), it intercepts large particles of dust and cooking fumes in the waste gas, protects the subsequent treatment equipment, and extends its service life. It can also be used for ventilation and purification in waste incineration power plants and sewage treatment plants, as well as for filtering odor carriers and particulate matter.
V. Aerospace and military Industry
Meet the strict cleanliness requirements of high-end manufacturing and ensure product reliability.
Aerospace component manufacturing: Clean workshops for the production of aircraft engines, satellite components, and precision parts of spacecraft, filtering ultrafine particles and harmful impurities to ensure the processing accuracy and service life of components, meeting aerospace-grade clean standards (Class 100-Class 1000).
Military equipment production: Applied in clean areas for the production of weapons and equipment, electronic components, and precision instruments, it filters dust and electromagnetic particles in the air to ensure the stability and reliability of the equipment, meeting the strict regulations of military production.
As a core filtration component in industrial clean environments, ultra-low resistance and high-efficiency filtration units, with their advantages of low air resistance and high dust-holding capacity, are widely adapted to various precision manufacturing scenarios.
In the electronic semiconductor industry, clean workshops (Class 1000-Class 10000) for chip manufacturing, PCB production, and semiconductor packaging use these filtration units to intercept particles larger than 0.5μm. This reduces air conditioning energy consumption by 20%-30% compared to traditional units and prevents circuit short circuits and loss of photolithography accuracy due to dust.
In precision machinery and automotive manufacturing, these filtration units serve high-end machine tool workshops, automotive electronic production lines, and clean engine assembly areas by filtering metal chips, oil mists, and dust. This ensures precision, assembly reliability, and extends equipment life.
Medical device and pharmaceutical industry: Applied in clean workshops for medical devices (such as surgical instrument production, assembly of implantable medical devices), API (Active Pharmaceutical Ingredient) production areas in the pharmaceutical industry, and formulation workshops, it complies with GMP standards, intercepts microorganisms, dust, and fiber impurities, and ensures the sterility and purity of products.
Ii. HVAC and Building Ventilation fields
Focus on the ventilation and purification needs of commercial buildings and public Spaces, taking into account both filtration efficiency and energy consumption optimization.
Commercial complexes and office buildings: Integrated into the central air conditioning fresh air system, it is used for air purification in office areas, shopping malls, and hotel rooms. It can effectively filter PM2.5, pollen, bacteria, and other pollutants (with a filtration efficiency of F7-F9 grades). Meanwhile, the low air resistance design reduces the operating load of the fan, lowers building energy consumption, and improves indoor air quality (IAQ).
Hospitals and medical institutions: Fresh air and return air filtration systems suitable for hospital outpatient departments, wards, and operating rooms, especially for infectious disease hospitals or respiratory wards. They can intercept droplet nuclei and pathogen carriers, reducing the risk of cross-infection. Moreover, they have a large dust holding capacity and a long replacement cycle (usually 6-12 months), lowering operation and maintenance costs.
Data center: A precision air conditioning filtration system for server rooms, filtering dust and fibers in the air to prevent overheating and shutdown caused by dust accumulation on server motherboards and heat dissipation modules. The low resistance feature ensures the efficiency of the air conditioning supply and maintains a constant temperature and humidity environment in the server room.
Iii. Food and Beverage and Agricultural Product Processing SectorMeet the sanitary filtration requirements for food production to ensure product safety and shelf life. Food processing workshop: Ventilation systems for clean areas applied in the production of baked goods, meat products, and dairy products, filtering microorganisms, dust, hair, and other contaminants in the air, in compliance with food safety production standards (such as HACCP), and preventing secondary contamination of products.
Beverage and drinking water industry: Fresh air filtration for filling workshops in the production of bottled water, fruit juice, and carbonated beverages, intercepting particles and microorganisms in the air to prevent beverage contamination during the filling process. Meanwhile, the low air resistance design is suitable for the ventilation requirements of high-speed production lines.
Deep processing of agricultural products: Suitable for ventilation and purification in dehydrated vegetable, grain processing, and nut roasting workshops, filtering dust, debris, and external pollutants, improving the working environment of the workshop, avoiding the risk of dust explosion, and ensuring product purity.
Iv. New Energy and Environmental Protection Field
Filtration scenarios that meet the clean requirements of new energy production and environmental protection governance:
New energy manufacturing: Clean workshops for the production of photovoltaic cells, lithium batteries, and fuel cells, filtering dust and metal particles in the air to prevent battery short circuits and performance degradation. At the same time, the low energy consumption feature is in line with the green development concept of the new energy industry.
Waste gas treatment and environmental protection equipment: As a pre-filtering unit for industrial waste gas treatment equipment (such as activated carbon adsorption boxes, photocatalytic equipment), it intercepts large particles of dust and cooking fumes in the waste gas, protects the subsequent treatment equipment, and extends its service life. It can also be used for ventilation and purification in waste incineration power plants and sewage treatment plants, as well as for filtering odor carriers and particulate matter.
V. Aerospace and military Industry
Meet the strict cleanliness requirements of high-end manufacturing and ensure product reliability.
Aerospace component manufacturing: Clean workshops for the production of aircraft engines, satellite components, and precision parts of spacecraft, filtering ultrafine particles and harmful impurities to ensure the processing accuracy and service life of components, meeting aerospace-grade clean standards (Class 100-Class 1000).
Military equipment production: Applied in clean areas for the production of weapons and equipment, electronic components, and precision instruments, it filters dust and electromagnetic particles in the air to ensure the stability and reliability of the equipment, meeting the strict regulations of military production.
