1 / 9

Uncertainties in Optical Charring Correction Schemes

Uncertainties in Optical Charring Correction Schemes. Jian Zhen Yu and Hong Yang Department of Chemistry Hong Kong University of Science & Technology. EC/OC workshop, Durango, CO March 2003. Two assumptions underlying charring correction scheme.

Download Presentation

Uncertainties in Optical Charring Correction Schemes

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Uncertainties in Optical Charring Correction Schemes Jian Zhen Yu and Hong Yang Department of Chemistry Hong Kong University of Science & Technology EC/OC workshop, Durango, CO March 2003

  2. Two assumptions underlying charring correction scheme • PEC evolves before native EC evolves in the analysis, or • PEC and native EC have the same absorption coefficients at the monitoring light wavelength. The EC/OC split is set at where filter transmittance returns to its initial value.

  3. Definition of terms • PEC: pyrolytically-generated EC • NEC: native EC • AEC: apparent EC, as determined by the instrument using optical charring correction scheme • s: filter light absorption coefficient at the monitoring wavelength • A: filter light absorbance at the monitoring wavelength

  4. Hypothetic thermograms of pure PEC, pure NEC, and a mixture of the two in a He/O2 atmosphere

  5. How much does AEC deviate from NEC?

  6. Unburned EC on the filter in the He/O2 stage

  7. Implication of an invalid assumption 2 If NEC < PEC2 , AEC underestimates NEC If NEC > PEC2 , AEC overestimates NEC The magnitude of deviation of AEC from NEC is proportional to: (1) the amount of NEC that is oxidized before the split line (2) the ratio between the  values of NEC and PEC2.

  8. AEC overestimates NEC Analyzed with the same temperature program. Filter alone: [AEC] =1.87+/-0.03 mgC/cm2 Filter+WSOC: [AEC]=2.25+/-0.26 mgC/cm2

  9. Conclusions • The two assumptions underlying the charring correction scheme by optical methods are proved not to hold. • Pyrolytically generated EC is indistinguishable from native EC. • The two types of EC have different light absorption coefficients (s) at the monitoring light wavelength. • The unequal s values of PEC and NEC could lead to either a negative or a positive bias in the EC measurement using the charring correction scheme. • The deviation from the underlying assumptions highlights the importance of minimizing PEC formation in order to minimize uncertainties in OC and EC determination.

More Related