摘要
采用化学镀方法分别制备了Pd、Pd95Ag5和Pd85Ag15/陶瓷复合膜.研究了不同温度下Pd基复合膜在不锈钢和石英管式分离器两种体系中的氢脱附过程.结果表明,不锈钢分离器体系中的氢脱附缓慢,脱附时间随温度升高而降低.以合金膜Pd85Ag15为例,在673 K两侧FN2=150 mL/min时,渗透侧的脱附时间为7 h,而进气侧则大于27 h.实验证明不锈钢分离器自身的H2脱附是该体系脱附的控制步骤.石英分离器体系的氢脱附时间明显缩短,同样的条件下Pd膜的两侧脱附时间分别为75和190 min.实验还证明,传质速率是石英分离器体系氢脱附的控制步骤,而多孔载体能够平抑脱附速率、延长脱附时间.
Three Pd- based membranes, including one pure Pd, one Pd85Ag5 and another Pd85Ag15/ceramic composite membrane, were prepared by modified eleetroless plating. H2 desorption time from these membrane - separator systems after H2/N2 shift was measured in both stainless steel and quartz separators at different temperatures. It was proved that the H2 desorption time is relatively long in the stainless steel separator and decreased as the temperature increased. In the case of Pd85Ag15 membrane, the H2 release time was 7 h and more than 27 h at 673 K with a 150 mL/min sweep gas (N2) flux on the permeate and feed side, respectively. It was also demonstrated that H2 desorption from walls of stainless steel separator was the control step of system H2 releasing. However, the H2 released time of Pd - based membrane decreased markedly i.e. only 75 and 190 min in the quartz separator with the same conditions. In the quartz separator, the flux of sweep gas was the control step of H2 released from system. Moreover, the mass transfer through porous support decreased the rate of H2 desorption.
出处
《膜科学与技术》
CAS
CSCD
北大核心
2009年第6期16-19,25,共5页
Membrane Science and Technology
基金
中国科技部资助项目(2005CB221401)
关键词
钯复合膜
钯银合金膜
氢脱附
氢释放
膜分离器
Pd composite membrane
Pd-Ag membrane
H2 desorption
H2 release
membrane separator