1. Beitr. Tabakforsch. Int./Contrib. Tob. Research, 2004, 21-1, p. 1-8., ISSN.0173-783X

    Application of nanoparticle iron oxide in cigarette for simultaneous CO and NO removal in the mainstream smoke

    PING L.; RASOULI F.; HAJALIGOL M.R.
    Philip Morris USA, Research Center, Richmond, VA, USA
    Based on the unique temperature and oxygen profiles in a burning cigarette, a novel approach is proposed in this paper to use a single oxidant/catalyst in the cigarette filler for simultaneous removal of carbon monoxide (CO) and nitric oxide (NO) in ...
  2. CORESTA Meeting, Smoke/Technology, Innsbruck, 1999, ST19

    Quantitative characterization of tobacco pyrolysis products using TG/FTIR

    HAJALIGOL M.R.; WOJTOWICZ M.A.; CARANGELO R.M.; BASSILAKIS R.; CHEN Y.; SERIO M.A.
    Philip Morris USA, Research Center, Richmond, VA, USA
    A TG/FTIR instrument that combines thermogravimetric analysis with evolved products analysis by Fourier transform infrared spectroscopy is a powerful thermo-analytical technique providing a quantitative time-resolved analysis of major pyrolysis products ...
  3. CORESTA Meeting, Smoke/Technology, Innsbruck, 1999, ST20

    Experimental investigation of formation of aromatic hydrocarbon from pyrolysis of cellulosic materials

    HAJALIGOL M.R.; WAYMACK B.; KELLOGG D.
    Philip Morris USA, Research Center, Richmond, VA, USA
    The major chemical pathway to produce aromatic hydrocarbons in the pyrolysis followed by flaming combustion of biomass is high temperature secondary reactions of the primary pyrolysis products. The second and less explored route that is more pertinent to ...