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Lime and limestone process
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- 2.3.3. Activated char process
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2.3.1. Lime and limestone process
Lime and limestone scrubbings are non-regenerative wet processes producing gypsum. Lime and limestone scrubbing are very similar. The use of lime (CaO) instead of limestone (CaCO 3 ) for the slurry preparation is the only difference. The alkaline slurry is sprayed in the absorber and reacts with the SO 2 in the flue gas. Following chemical reactions occur: SO2 dissociation: SO 2 (gaseous) → SO 2 (aqueous) SO 2 + H 2 O → H 2 SO 3 H 2 SO 3 → H + + HSO 3 - → 2H + + SO 3 - Lime or limestone dissolution: CaO (solid) + H 2 O → Ca(OH) 2 (aqueous) → Ca 2+ + 2HO - or CaCO 3 (solid) + H 2 O → Ca 2+ + HCO 3 - + HO - Reaction between ions: Ca 2+ + SO 3 2- + 2H + + 2HO - → CaSO 3 (solid) + 2H 2 O The following reactions can occur if there is excess oxygen: SO 3 2- + ½ O 2 → SO 4 2- SO 4 2- + Ca 2+ → CaSO 4 (solid) Lime and limestone processes are the most popular flue gas desulfurization system for utility boilers. Some system has achieved SO2-removal efficiency greater than 95%. Another advantage is that these processes produce gypsum, which is saleable. However, these processes have limited usage in refineries. 9 2.3.2. Dual-alkali scrubbing Dual-alkali scrubbing is a non-regenerative process using sodium-based solution and lime or limestone to remove SO 2 from flue gases. Following chemical reactions occur: Main absorption reactions: 2NaOH + SO 2 → Na 2 SO 3 + H 2 O NaOH + SO 2 → NaHSO 3 Na 2 CO 3 + SO 2 + H 2 O → 2NaHSO 3 Na 2 CO 3 + SO 2 → Na 2 SO 3 + CO 2 Na 2 SO 3 + SO 2 + H 2 O → 2NaHSO 3 2NaOH + SO 3 → Na 2 SO 4 + H 2 O 2Na 2 SO 3 + O 2 → 2Na 2 SO 4 Regeneration: 2NaHSO 3 + Ca(OH) 2 → Na 2 SO 3 + CaSO 3 . ½ H 2 O↓ + 3 / 2 H 2 O Na 2 SO 3 + Ca(OH) 2 + ½ H 2 O → 2NaOH + CaSO 3 . ½ H 2 O ↓ Na 2 SO 4 + Ca(OH) 2 → 2NaOH + CaSO 4 ↓ This method is attractive because it has a high SO 2 - removal efficiency and it reduces scaling problems. 2.3.3. Activated char process Activated char process is the principal dry process used in refineries. The circulating activated char absorbs SO 2 at a temperature comprised between 100 and 200°C. This process has the advantage to also eliminate NOx present in the flue gases. The following chemical reactions occur: Absorption on char and conversion into sulphuric acid: SO 2 + ½ O 2 + H 2 O → H 2 SO 4 NOx reduction with ammonia: 4NO + 4NH 3 + O 2 → 4N 2 + 6H 2 O Char regeneration at 400°C: H 2 SO 4 → H 2 O + SO 3 2SO 3 + C → 2SO 2 + CO 2 After concentration, SO 2 is sent to the Claus unit. This process can achieve an SO 2 -removal efficiency of 90 % and a NOx-removal efficiency of 70%. |