The application fields of filter materials are very wide, mainly used in boiler exhaust smoke filtration for thermal power generation, smoke filtration at the kiln head and tail of the cement industry, smoke and dust control in the steel, metallurgy and chemical industry, and urban waste incineration power generation.
Today we will learn about H13 high-efficiency filter materials.
The end of the clean room must be protected by a filter with an efficiency specification of not less than F8 before the high-efficiency (HEPA) filter; F9-H11 filters can be used before the very high-efficiency (ULPA) filter.
The central air conditioner itself should be protected by a filter with an efficiency specification of no less than F5.
H13 grade high-efficiency filter material is a new type of polymer environmentally friendly material.
Compared with other high-efficiency filter materials, its characteristics are that its filtration performance is more excellent.
It has strong hydrophobic properties and very good non-adhesive properties, so it is easy to remove dust accumulated on the surface of the material, and it can be rinsed with water to restore its performance, allowing for reuse, which also extends the service life of the equipment.
The membrane pore size is small and uniform, and the material has been heat-set at high temperatures, making the microporous structure very stable, thus effectively ensuring that dust particles can be effectively intercepted at high wind speeds.
It is a manufacturer of H13 high-efficiency filter materials that specializes in R&D, production and sales.
Our company is different from other manufacturers.
Our company can customize according to user’s requirements.
The optimized combination of key technical parameters such as speed ratio, pressure ratio, operating temperature, etc. can realize online control of air permeability, thickness and void ratio according to the ratio and pore-forming medium to meet the different requirements you need. .
Interested parties can enter the store for consultation.
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