摘要
油品中的含硫化合物伴随着燃油的燃烧转换成了硫氧化物,严重污染环境。要降低空气中的硫氧化物,其根本问题在于降低油品中的含硫化合物。基于此,合成了双核六硝基酞菁铝,通过元素分析、红外光谱以及紫外—可见光谱对其结构进行表征,然后以双核六硝基酞菁铝作为去除乙硫醇的催化剂。结果表明:在双核六硝基酞菁铝的作用下,乙硫醇的去除率最大为94%,而且能够持续到390 min。
The sulfur compounds in the oil products,accompanied by the combustion of the fuel,converted into sulphur oxides,which seriously polluted the environment.To reduce the sulfur oxide in the air,the fundamental problem is to reduce the sulfur compounds in the oil.Based on this,Aluminum binuclear hexanitrolphthalocyanine was synthesized by elemental analysis,IR spectra and UV-Vis spectra was characterized,then to Aluminum binuclear hexanitrolphthalocyanine as a catalyst to remove ethanethiol.The results showed that Aluminum binuclear hexanitrolphthalocyanine were used,the maximum removal rate for ethanethiol94%,and can last up to390min.
作者
薛科创
XUE Ke-chuang(School of Chemical Engineering, Shaanxi Institute of Technology, Xi'an 710300, China)
出处
《安徽化工》
CAS
2018年第6期24-26,共3页
Anhui Chemical Industry
基金
陕西国防工业职业技术学院2018年度科研计划项目(Gfy18-41)
关键词
催化活性
双核六硝基酞菁铝
乙硫醇
去除率
catalytic activity
Aluminum binuclear hexanitrolphthalocyanine
ethanethiol
removal rate
