摘要
当助催化剂存在时,Fe1-xO基催化剂的还原性能明显优于Fe3O4基催化剂,其原因是铝、钾、钙的氧化物对催化剂母体相Fe1-xO和Fe3O4还原性能的影响不同.由于Al3+大量地进入Fe3O4的晶格而强烈地阻止Fe3O4的还原,只有少量的Al3+能进入Fe1-xO晶格,因此对Fe1-xO的还原影响很小;虽然大量的Ca2+进入了Fe1-xO的晶格,但没有阻碍Fe1-xO的还原;K2O的存在明显加速Fe1-xO的还原,但对Fe3O4的还原没有促进作用.
The reduction performance of fused iron catalyst for ammonia synthesis is closely related with the phase composition of its precursor. However, the main reason why reduction performance of Fe 1- x O based catalyst is superior to that of Fe 3O 4 based catalyst is the different effects of aluminum, potassium and calcium oxides on the reduction of Fe 1- x O and Fe 3O 4. Al 2O 3 strongly affects the reduction of Fe 3O 4 based catalyst owing to Al 3+ inserting into the crystal structure of Fe 3O 4, but it affects the reduction of Fe 1- x O based catalyst weakly because only a small amount of Al 3+ can insert into the crystal structure of Fe 1- x O. A large amount of Ca 2+ inserted into the crystal structure of Fe 1- x O does not hinder the reduction of Fe 1- x O based catalyst. When K 2O is added into the precursor of the catalysts, it accelerates the reduction of Fe 1- x O based catalyst, but not the reduction of Fe 3O 4 based catalyst.
出处
《催化学报》
SCIE
EI
CAS
CSCD
北大核心
1998年第1期24-28,共5页
基金
浙江省自然科学基金
关键词
熔铁
氨合成
催化剂
助催化剂
合成氨
Fused iron, Ammonia synthesis catalyst, Promoter, Alumina, Potassium oxide, Calcium oxide, Reduction performance, Wüstite
