• 关键词：杂多化合物  硫化氢  宏观动力学  脱硫  吸收

• 基金项目：中国石油天然气集团公司“中青年创新基金”资助

• 王睿
• 海南大学理工学院, 海口570208

• 鲍晓军
• 石油大学化工学部, 北京102200

• 摘要：在双搅拌、无浓度梯度气液反应器中考察了磷钼杂多化合物吸收H₂S过程的宏观动力学行为.结果表明, 吸收剂浓度提高, 脱硫效果增强, 当磷钼酸钠浓度超过6.25×10^-3mol/L后, 单一与复配体系对H₂S的吸收速率均趋恒定.从工业操作角度来看, 6.25×10^-3mol/L是适宜的操作浓度温度提高, 吸收效果略有降低, 但变化幅度不大, 实际操作温度可选择常温;进气H₂S浓度提高, 吸收效果增强.两种脱硫体系中, 以复配体系脱硫性能为优.实验测得25℃下反应器中H₂S的气、液相传质系数分别为:kGH₂S=8.201×10^-10kmol/(m²·s·Pa), kLH₂S=3.440×10^-4m/s.吸收反应对磷钼酸钠及硫化氢的反应级数分别为0.339与1.055.

• Abstract：The macro kinetic behavior of hydrogen sulfide absorption with HPC (hyteropoly compounds) was investigated in a double stirred, concentration gradient less gas liquid reaction cell. Conclusions derived from this study can be summarized as follows: The absorption rate increases with the increase of the absorbent concentrations. The absorption rate reaches asymptotic in both absorbent systems of monocomponent and multicomponent when the absorbent concentration increases to above 6.25×10^-3 mol/L, which has been determined to be the optimum absorbent concentration of industrial interest. The absorption rate decreases slightly with the increase in operation temperature, thus, room temperature can be determined to be the favorable operation temperature. The absorption rate increases with the increase in H₂S concentration in the inlet gas stream. Multicomponent absorbent system shows better performance of H 2S removal than that with HPC only. Mass transfer coefficients of hydrogen sulfide at 25℃ in gas phase and liquid phase were determined to be k G H₂S =8.201×10^-10 kmol/(m²·s·Pa) and k L H₂S =3.440×10^-4 m/s respectively. The absorption reaction order to sodium phosphomolybdate was 0.339, and 1.055 to hydrogen sulfide.

• Key words：hyteropoly compounds  hydrogen sulfide  macrokinetics  desulfurization  absorption

• 
  摘要点击次数： 1557 全文下载次数： 2926