SY-Blue - Wet Desulfurization Tower

Its internal functions are divided into slurry circulation area of the tower tank, flue gas inlet in the middle of the tower, spray and fog removal area in the middle and upper part of the tower. Among them, the slurry circulation area includes a side-entry agitator or pulse suspension pipe network to prevent slurry settling, built in filtering net on tower  and an oxidized air pipe network; The upper part of the flue gas inlet is provided with an air flow distribution device (optional); The spray layer in the upper part of the tower can be selected from 3 to 6 layers based on the desulfurization efficiency, the spacing of each layer is 1.8~2.0m, and each layer is equipped with a plurality of efficient desulfurization nozzles, with a coverage rate of more than 250%; According to the emission standards for fog droplet concentration, the mist eliminator can choose a variety of forms such as flat plate type, roof ridge type and tube bundle type. There are multiple circulating pumps outside the tower to connect the slurry circulation pool with the spray layer, and each circulating pump corresponds to a separate spray layer.

Working mechanism
Taking limestone as an example, the principle is as follows:
SO₂ and SO₃ in the flue gas will react as follows when they encounter water in the liquid drop:
SO₂ + H₂O → HSO₃^- + H⁺
SO₃ + H₂O → H₂SO₄
The resulting H₂SO₄ will be rapidly neutralized by limestone to maintain effective and durable absorption of SO₂ and SO₃.
Reacts with limestone
SO₂ and SO₃ react with fine limestone particles in the descending slurry droplets:
CaCO₃ + 2H⁺ + HSO₃^- → Ca²⁺ + HSO₃^-+CO₂↑+H₂O
CaCO₃ + H₂SO₄ → CaSO₄ + CO₂↑+H₂O
The above is an ionic reaction, so the reaction takes place in solution, and the reaction with limestone is completed in the slurry tank of the absorber.

Oxidation reaction
Air blown into the slurry tank of the absorber oxidizes sulfites to sulfate:
Oxidation: 2Ca^₂++2HSO₃^-+O₂→2CaSO₄+2H⁺
The oxidation reaction is followed by gypsum crystallization:
Crystallization: CaSO₄+2H₂O→CaSO₄·2H₂O

Treatment of Gas flow  and concentration range
10000~3000000m³/h, SO₂ inlet concentration ≤12000mg/Nm³, SO₂ outlet emission concentration ≤35mg/Nm_³.

Applicable industry
Power, chemical, light industry, metallurgy, building materials, and other industries boiler and kiln flue gas.

1. high desulfurization efficiency, up to 99.9%, especially suitable for flue gas purification with high SO2 content;
2. the source of desulfurization agent is wide, can use limestone, quicklime, slaking lime, magnesium oxide, papermaking white mud and other substances as desulfurization agent;
3. desulfurization agent utilization efficiency is high, calcium sulfur ratio is generally about 1.03;
4. desulfurization byproducts can be used as building materials;
5. the applicability of the unit is strong, the system utilization rate is greater than 95%.