摘要
通过实验研究了正丁烷/氢气/空气混合物在Pt催化剂表面上的催化着火特性。实验发现,氢气在正丁烷/空气混合物的催化着火过程中既存在热作用,也存在化学作用。当化学作用为主导时,可燃混合物的化学催化着火温度明显低于热着火温度。实验结果表明,只有当氢气在可燃混合物的含量大于某个临界值时,化学催化着火才能发生,而且该临界值的大小以及催化着火温度均与可燃混合物的当量比有关。
An experimental study on catalytic ignition ofn-C4H10/H2/air mixtures in the Pt-coated catalyst surface was conducted. Hydrogen had not only thermal, but also chemical effects on the catalytic ignition of the n-C4H10/air mixtures. The chemical catalytic ignition temperature of the combustible mixtures was obviously lower than thermal ignition when chemical effect was dominant. However, chemical catalytic ignition occurred only when hydrogen content in the combustible mixtures was greater than a critical value. The critical value and the catalytic ignition temperature were related to equivalence ratio of the combustible mixtures.
出处
《化工学报》
EI
CAS
CSCD
北大核心
2014年第11期4363-4367,共5页
CIESC Journal
基金
国家自然科学基金项目(51276096)~~
关键词
微通道
层流
正丁烷
氢
催化着火
热作用
化学作用
microchannels
laminar flow
hydrogen
catalytic ignition
thermal effect
chemical effect