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35 results

  1. CORESTA Congress, Berlin, 2016, Smoke Science/Product Technology Groups, STPOST 21 (also presented at TSRC 2016)

    Puff-by-puff tar, nicotine and carbonyl profiles under different smoking regimens of commercial cigarettes with various carbon filter technologies

    ROBERTSON R.M.; NORFLEET K.; CANTERBURY W.B.
    Celanese, Narrows, VA, U.S.A.
    Puff-by-puff smoke analysis has shown that the CelFX ® carbon filter technology has similar nicotine and tar smoke delivery profiles but with significantly reduced carbonyls, particularly in the first 6 puffs, compared to a cellulose acetate filter. Prior ...
  2. TSRC, Tob. Sci. Res. Conf., 2016, 70, abstr. 14 (also presented at CORESTA 2016)

    Puff-by-puff tar, nicotine and carbonyl profiles under different smoking regimens of commercial cigarettes with various carbon filter technologies

    ROBERTSON R.M.
    Celanese, Narrows, VA, USA
    Puff by puff smoke analysis has shown that the CelFX ® carbon filter technology has similar nicotine and tar smoke delivery profiles but with significantly reduced carbonyls, particularly in the first 6 puffs, compared to a cellulose acetate filter. Prior ...
  3. CORESTA Meeting, Smoke Science/Product Technology, 2015, Jeju, STPOST 18

    Particle breakthrough comparison of commercial carbon filters with CelFX™ carbon/acetate filters

    ROBERTSON R.M.; SUTHAR J.N.; BASU S.
    Celanese, Narrows, VA, U.S.A.
    Previous works have evaluated cigarette filter carbon particle release from various filter designs. The recently introduced CelFX™ Matrix Technology offers high loadings of carbon, with low pressure drops and has not been studied for the particle release ...
  4. CORESTA Congress, Quebec, 2014, Smoke Science/Product Technology Groups, ST 32

    Impact of carbon particle size and pressure drop of the CelFX™ Matrix Technology Section on carbonyl reduction at constant total cigarette pressure drop

    BASU S.
    Celanese, Narrows, VA, U.S.A.
    The CelFX™ advanced filtration platform utilizes a binder and activated carbon to efficiently filter cigarette smoke. Previous studies have demonstrated the role of activated carbon in reduction of many vapor phase components including various carbonyls. ...