Chinese Journal of Applied Chemistry ›› 2009, Vol. 26 ›› Issue (08): 952-955.

• Full Papers • Previous Articles     Next Articles

Desulfurization of Flue Gas Simulated with Amine Solution

ZHAI Lin-Zhi, ZHONG Qin*   

  1. (School of Chemical Engineering,Nanjing University of Science & Technology,Nanjing 210094)
  • Received:2008-06-30 Revised:2009-03-24 Published:2009-08-10 Online:2009-08-10

Abstract:

Experimental research on the desulfurization of flue gas simulated with 0.3 mol/L amine solutions prepared with ethanolamine, ethylenediamine and so on. Desulfurization efficiency was studied by iodometry titration. Absorption capacity of SO2, oxidation of absorbed SO2 and desorption efficiency of SO2 were researched via ion chromatography. Meantime, cycles on the desulfurization efficiency and SO2 content of rich absorbent were studied. The results show that the desulfurization efficiency of all the absorbents were maintained 99 % for 30 min. After 60 min, the desulfurization efficiency of ethylenediamine solutions reached 99 %, but the desulfurization efficiency of alcohol amine solutions decreased significantly. The absorption capacity of the ethylenediamine solution for SO2 was 455 mg/L, much higher than that of the alcohol amine solution. Boric acid was added to the ethylenediamine solution, the absorption capacity of the solution for SO2 was slightly lower(450 mg/L), but oxidation efficiency of absorbed SO2 reduced from 1.14 % to 0.29 %. At the same time, the desorption efficiency of SO2 increased from 38.0 % to 59.0 %. Absorption-desorption cycle experimentals indicated that the average desulfurization efficiency of the ethylenediamine/boric acid solution reached above 99 %, and SO2 content of rich absorbents decreased from 0.44 mol/L to 0.40 mol/L. The results suggest the desulfurization effect of the ethylenediamine/boric acid solution is excellent as the flue gas absorbent.

Key words: alcohol amine, ethylenediamine, ethylenediamine/boric acid, flue gas desulfurization

CLC Number: