Baffle defogger
When a gas containing mist flows through a defogger at a certain speed, due to the inertial impact of the gas, the mist collides with the corrugated plate and the droplets that are gathered are so large that their own gravity exceeds the combined force of the upward lift force of the gas and the surface tension of the liquid, and the droplets are separated from the surface of the corrugated plate. The multi fold structure of the defogger waveform board increases the chance of fog being captured. The unremoved fog is captured by the same action at the next turn, and this repeated action greatly improves the defogging efficiency. After passing through the waveform plate defogger, the gas is basically free of mist. The flue gas passes through the curved channel of the defogger and separates the liquid droplets carried in the airflow under the action of inertia and gravity. The desulfurized flue gas flows through the defogger at a certain speed, and the direction of movement of the flue gas is quickly and continuously changed. Due to the centrifugal force and inertia, the mist droplets in the flue gas collide with the defogger blades and are captured. The mist droplets gather and form a water flow. Due to the action of gravity, they fall into the slurry pool, achieving gas-liquid separation, so that the flue gas flowing through the defogger meets the defogging requirements and is discharged.
