Steady-State models for SO2 oxidation in a trickle-bed reactor

The effects of cycle period, cycle split, and liquid flow rate on SO 2 removal in a periodically operated trickle bed of activated carbon were investigated using a simulated flue gas containing 2500 ppm SO 2. The highest measured SO 2 removal was 98%. Temperature waves observed in the bed were the c

In this study, the oxidation of SO 2 on activated carbon (AcC) by using distilled water and air was carried out in a laboratory scale trickle bed reactor (TBR). Distilled water and air containing 1.7 % (v/v) SO 2 were fed co-currently downward through a fixed bed of AcC particles in a range of 1±7 c

The isothermal decomposition of hydrogen peroxide on a CuCr catalyst in a laboratory scale trickle bed reactor was used to test model predictions of the dependence of liquid reactant conversion on space time for different operating conditions. It is assured that the decomposition of hydrogen peroxid

Catalytic activities of two different activated carbons, BPLTM and CentaurTM catalysts (Calgon Carbon Corp.1, were compared in a periodically operated trickle-bed reactor for SO, oxidation by va ying the cycle period and split. In an effort to characterize the carbon surface, differential thermograv