The mechanism of dust removal for dust collector accessories can be explained as follows: After particles hit the collecting material, are they carried away by the airflow or do they continue to adhere and stay between the collecting materials due to adhesion? As previously mentioned, the adhesive force between particles and the collecting material, without considering chemical bonding forces, mainly consists of three types from a macro perspective: Van der Waals force, capillary adhesion, and electrostatic Coulomb adhesion. Under normal circumstances (without an external electric field), Van der Waals force, capillary adhesion, and electrostatic Coulomb adhesion are on the same order of magnitude. When the filtration air velocity increases, stronger airflow and particle motion may dislodge particles that are not tightly adhered to the collecting material, pulling them away with the rapid airflow and carrying them off. Additionally, increasing the filtration air velocity may also cause chain-like aggregates that were previously formed to break, thereby disrupting the stable sieving effect that had been established and reducing the dust collector's efficiency in capturing dust particles.