Application areas of high-temperature resistant high-efficiency filters
Application areas of high-temperature resistant high-efficiency filtersApplication areas:Pharmaceutical industry: In high-temperature sterilization tunnels or high-temperature drying rooms in pharmaceutical factories, high-temperature resistant high-efficiency filters can effectively filter out particles such as tar, soot, dust, etc. to ensure that the production environment of pharmaceuticals meets the requirements. High-temperature resistant high-efficiency filter: high-temperature resistant glass fiber filter paper; stainless steel frame, aluminum frame; sealant: high-temperature resistant silica gel; gasket: silicone rubber; laser counting efficiency one by one: 99.99%@0.3um efficiency grade: H13; resistant The high-temperature high-efficiency filter continuously operates at a temperature of 300 degrees, and the maximum temperature can reach 350 degrees. Food industry: In the food production process, high-temperature resistant high-efficiency filters can be used in equipment such as tunnel furnaces and industrial ovens to purify the air, prevent pollution, and ensure food safety. Electronics industry: In processes such as UV curing of electronic components, high-temperature resistant high-efficiency filters can effectively filter particles in the air and improve product appearance quality, and performance. Chemical industry: In the chemical production process, high-temperature resistant high-efficiency filters can be used in various high-temperature situations to purify the air and reduce damage to equipment and personnel caused by harmful substances. Key points for selecting high-temperature resistant high-efficiency filters: Determine the air volume and size of the required filter: According to actual needs, select a high-temperature resistant high-efficiency filter that meets the air volume and size requirements. Consider the installation method: According to the specific structure of the equipment, choose the appropriate installation method to ensure the stability and effectiveness of the filter. Special requirements: According to the special requirements of the production environment, such as temperature, humidity, etc., select high-efficiency high-efficiency filters with corresponding characteristics. The high-efficiency high-efficiency filter with high-temperature resistance can reach an instantaneous maximum temperature of 300 degrees and a constant temperature of about 260 degrees, with stable and reliable performance. High-temperature resistant high-efficiency filter applicable places: 1. High cleanliness occasions such as aerospace, electronics, semiconductors, chips, biopharmaceuticals, hospitals, and food processing. 2. The terminal of the air conditioning and ventilation system (terminal filter and hot air high-temperature oven, oven). 3. Clean working environments with high-temperature requirements at the end of hospital operating rooms, hospitals, biopharmaceuticals, laboratories, circuit boards, microelectronics, optics, LED optoelectronics, QS food processing or purification equipment. Materials and operating conditions of temperature-resistant high-efficiency filter: Filter material: ultrafine glass fiber filter paper Sealant: red silicone (250~280℃) Frame material: Aluminum profile/aluminum plate/galvanized iron/stainless steel can be selected below 250℃. The galvanized iron frame or stainless steel frame must be used above 250℃. Separator: 0.035mm thick aluminum foil Sealing strip silicone plate (250~280℃) Filtration efficiency 99.97%~99.995% @ 0.3μm In short, as a solution for air purification in high-temperature environments, high-temperature resistant high-efficiency filters have the characteristics of high-temperature resistance, high-efficiency filtration, low resistance, and long life. They are widely used in pharmaceutical, food, electronics, chemical, and other industries. When selecting a high-temperature resistant high-efficiency filter, full consideration must be given to actual needs and special requirements to ensure its purification effect in high-temperature environments. |