The mechanism of micropore zeolites removing polycyclic aromatic hydrocarbons in cigarette smoke

ZHOU Shi-lu1,2,LV Jian1,XU Hai-tao1,YUE Yong1,SHENG Zhi-yi1,HU Su-lin1,LIANG Shuang1,XIAO Xie-zhong1,WANG Ying2,YUN Zhi-yu2,CAO yi2,ZHU Jian-hua21 Technology Center,China Tobacco Shandong Industrial Corporation,Qingdao 266101,China;2 Department of Chemistry,Nanjing University,Nanjing 210093,China

micropore zeolites;cigarette smoke;polycyclic aromatic hydrocarbons;removal;mechanism

Mechanism of zeolite selectively reducing polycyclic aromatic hydrocarbon(PAHs) in cigarette smoke was analyzed through adsorption and catalytic cracking experiments of two PAHs,fluoranthene(Flu) and anthracene(Ant),in zeolite Y,ZSM-5,and NaA.Results indicated that zeolite Y can adsorb both Flu and Ant while zeolite ZSM-5 can only adsorb Ant.However,both zeolites can catalyze Flu and Ant.Zeolite NaA can not adsorb and catalyze Ant nor Flu due to its small pore diameter.Nevertheless,when these zeolites were added into cigarettes filter,the content of B[a]P,Ant,and Flu in smoke were all decreased.Considering with the FTIR spectra of zeolites adsorbing PAHs and theoretical calculation by quantum chemistry,a reasonable conclusion could be made that the removal of PAHs by zeolites was not caused by direct adsorption or catalytic cracking but caused by the adsorption of intermediates or precursors which may inhibit the formation of PAHs.