摘要
由于各种燃油的使用,空气中的硫氧化物逐渐增多,要降低空气中的硫氧化物,就要降低燃油中的含硫化合物。合成了四硝基酞菁铝配合物,利用元素分析、红外光谱以及紫外-可见光谱确定了它的结构,然后以四硝基酞菁铝作为脱硫催化剂,测定了它在去除乙硫醇时的催化活性。结果表明:在四硝基酞菁铝的作用下,乙硫醇的硫氧化物去除率达到了88%,这种状况却只能持续到270min。和四羧基酞菁铝比较,由于硝基是吸电子基团,它降低了酞菁环上的电子云密度,不利于电子的转移,导致催化活性下降。
Due to the use of various fuels,sulfur oxides in the air gradually increased. In order to reduce the sulfur oxides inthe air,so that to reduce sulfur compounds in the fuel. Aluminum tetranitrophthalocyanine complexes were synthesized byelemental analysis,infrared spectroscopy and ultraviolet visible spectroscopy to determine its structure,and then to theAluminum tetranitrophthalocyanine as desulfurization catalyst,determined its catalytic activity in ethylene removal the resultsshow that the thiol Aluminum tetranitrophthalocyanine under the effect of ethyl mercaptan removal rate reached 88%,thissituation can last up to 270min. Compared with Aluminum tetranitrophthalocyanine,the nitro group is an electron ofwithdrawing group,which reduces the electron cloud density on the phthalocyanine ring,which is unfavorable to the electrontransfer and leads to the decrease of the catalytic activity.
作者
薛科创
XUE Ke-chuang(School of Chemical Engineering, Shaanxi Institute of Technology, Xi'an 710302, China)
出处
《安徽化工》
CAS
2017年第6期36-38,共3页
Anhui Chemical Industry
基金
陕西国防工业职业技术学院科研计划项目(Gfy17-21)
关键词
催化活性
四硝基酞菁铝
乙硫醇
去除率
catalytic activity
Aluminum tetranitrophthalocyanine
ethanethiol
removal rate
