关键词: 分离, 天然气, 填充床, 脱硫, 海洋平台

Abstract: The intensive experimental research on the removal of H₂S was conducted using a high gravity rotating packed bed(RPB)with iron-based desulfurizer and a mixture of N₂ and H₂S, which was used to simulate natural gas. The effects of inlet mass concentration of H₂S, gas flow rate, desulfurizer flow rate and temperature and RPB rotor speed on removal rate of H₂S were investigated. The optimized experimental conditions using high gravity technology with iron-based desulfurizer were as follows:mass concentration of H₂S in feed 14g/m³, gas flow rate 0.45m³/h, liquid flow rate 13.5L/h, desulfurizer temperature 40℃, and rotor speed of RPB 1000 r/min. Removal rate of H₂S could reach above 99.98%, and concentration of H₂S after desulfurization was lower than 2mg/m³ under the present experimental condition. Oxidation of used iron-based desulfurizer was also studied by bubbling the air into a storage tank instead of another RPB. Oxidation efficiency could be maintained well and removal rate of H₂S still remained very high and steady for a long time. High gravity technology desulfurization process is characterized by simple structure, higher desulfurization, and smaller size. Therefore, it has a very good application prospect of intensive desulfurization of natural gas or oil-associated gas on offshore platform.

Key words: separation, natural gas, packed bed, desulfurization, offshore platform