摘要
应用XPS对MoO3/TiO-Al2O3体系的MoO3在TiO2-Al2O3载体上的存在状态及其对H2S的吸附和脱附性能进行了表征,结果表明:MoO3在TiO2-Al2O3表面存在分散状态的不同,这导致了对H2S吸附性能的不同.在相同的条件下,吸附剂为0.15gMoO3/gTiO2Al2O3时具有最大载流量,且随吸附温度的升高载流量也增加,达饱和时S/Mo原子比接近1,较好的氧化脱附温度为150-250℃.吸附可能是通过H2S中的S2-取代了MoO3中的O2-进行的反应吸附.
The adsorption of H2S on MoO3/TiO2-Al2O3 was investigated by XPS,along with the measurement of breakthrough curve. The results showed: the amount of adsorbed H2S for each gram of MoO3 varied with the loadings of MoO3, and approached a maximum when the loading was 0.15g/g TiO2-Al2O3; the adsorption capacity of 0.15g MoO3/g TiO2-Al2O3 increased when the adsorbent was heated from 100 to 300℃, with the atomic ratio of S to Mo rising to c.a. 1, the adsorbent of 0.15g MoO3/gTiO2-Al2O3 could be regenerated easily by oxidation with air during 150 to 250℃; the adsorption process might be a chemical reaction as pointed out by reference [1]: H2S+MoO3=MoO3·SH2 or H2S +MoO3=MoO2·S+H2O.
出处
《物理化学学报》
SCIE
CAS
CSCD
北大核心
1996年第4期341-345,共5页
Acta Physico-Chimica Sinica
基金
国家自然科学基金