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Oxidation inhibition of sulfite in dual alkali FGD system
Authors:MO Jian-song  WU Zhong-biao  CHENG Chang-jie  GUAN Bao-hong  ZHAO Wei-rong
Affiliation:1. Department of Environmental Engineering, Zhejiang University, Hangzhou 310027, China
2. Zhejiang Tianlan Desulfurization and Dust-Removal Co, Ltd, Hangzhou 310012, China
Abstract:
A laboratory-scale well-mixed thermostatic reactor with continuously blasting air was used to investigate the oxidation inhibition of sulfite in dual alkali flue gas desulfurization (FGD) system. The effects of operating parameters such as pH value and catalyst concentration on the oxidation were studied. Sodium thiosulfate was used in the system, and was found that it significantly inhabited the sulfite oxidation. In the absence of catalyst, sodium thiosulfate at 12.67 mmol/L had an inhibition efficiency of approximately 98%. While in the presence of catalyst, sodium thiosulfate at 26.72 mmol/L had an inhibition efficiency less than 85.0%. The oxidation reaction order of sulfite in the sodium thiosulfate was determined to be -1.90 and -0.55 in the absence and presence of the catalyst, respectively. Apparent activation energy of oxidation inhibition was calculated to be 53.9 kJ/mol. Pilot tests showed that the consumption rate of thiosulfate agreed well with the laboratory-scale experimental results.
Keywords:dual alkali  sodium sulfite  oxidation inhibition  sodium thiosulfate  system  flue gas desulfurization  alkali  dual  sulfite  inhibition efficiency  Pilot  consumption rate  experimental  results  activation energy  reaction order  sodium thiosulfate  presence  Sodium  effects  operating parameters  pH value  catalyst  concentration
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