Kinetic Study on High-Temperature H2S Removal over Mn-Based Regenerable Sorbent Using Deactivation Model

The kinetics of high-temperature H2S removal over Mn/Al sorbents prepared by co-precipitation method was investigated in a fixed-bed reactor using a deactivation model. The initial sorption rate constant (k(0)), deactivation rate constant (k(d)), apparent activation energy (E-a), and deactivation energy (E-d) were obtained. The k(0) and k(d) values of Mn/Al sorbents are much higher than those of pure Mn2O3. This indicates that Mn/Al sorbents have higher reactivity on the removal of H2S and less diffusion resistance caused by the formation of the sulfided product. The E-a and E-d values for the sorbent with the Mn content (wt %) of 35.4% are 38.18 and 31.05 kJ/mol, respectively. The deactivation model gives excellent predictions for the H2S breakthrough curves in the sulfidation-regeneration process.

Automated summary

The kinetics of high-temperature H2S removal using Mn/Al sorbents prepared by co-precipitation method were investigated. The sorbents showed higher reactivity and lower diffusion resistance compared to pure Mn2O3. The deactivation model accurately predicted the H2S breakthrough curves during sulfidation-regeneration process.