Air compressor air filter cartridge filter 48958201 1320033271 100005618 A13316774 C13316/774

High Performance Replacement Air Compressor Part Air Filter 85400729 RT6005011111 02250125-372 A13316774 48958201 1320033271 100005618 C13316/774 9610512N0800P1 2118315 22553 54471834 5400729 89310700 92793025 48958201 LPO2P000043 561947 C17337 22553 8R21050100 2250122816 2250125372 68561947 7007055 C17337 P-CE05-503 PS-CE03-517 E434L P828889 P772580 AF25352 8973035306 AF25557 AF25292 P772580 AF25352 AF25292 110-6326 L99453 AT171853 86982524 47137832 59700-26112 26510342 32143-12700 54471834 901-048 52322330 4486002 59031170 600-185-2100(S) 600-185-2110 848101144

    Fiber filter material:

Fiber filter materials should be able to effectively intercept dust particles without creating excessive resistance to airflow. Non woven fiber materials and specially made paper meet this requirement. The disorderly interwoven fibers form countless barriers against dust, and the wide space between the fibers allows air flow to pass smoothly.

Principle of inertia

Large particles undergo inertial motion in airflow. The airflow encounters obstacles and detours, causing particles to deviate from the direction of the airflow due to inertia and collide with obstacles. The larger the particle, the stronger the inertial force, and the greater the likelihood of colliding with obstacles, thus the better the filtering effect.

Diffusion principle

Small particles undergo irregular Brownian motion. The theory of diffusion in mass transfer is used for digital processing of irregular motion, hence the concept of diffusion principle. The smaller the particle, the more intense the irregular motion, and the more opportunities it has to collide with obstacles, thus the better the filtering effect.

Efficiency varies with the size of dust particles

The ratio of the amount of dust captured by the filter to the amount of dust in the unfiltered air is called "filtration efficiency". Particles smaller than 0.1 μ m mainly engage in diffusion motion, and the smaller the particle, the higher the efficiency; Particles larger than 0.5 μ m mainly engage in inertial motion, and the larger the particle, the higher the efficiency. There is a lowest point in efficiency between 0.1 and 0.3 μ m, and dust of this particle size is the most difficult to filter.