Presentation Transcript
Natural Haze Levels II:Application of the New IMPROVE Algorithm to Natural Species Concentrations Estimates : Natural Haze Levels II: Application of the New IMPROVE Algorithm to Natural Species Concentrations Estimates Final Report by the
Natural Haze Levels II Committee to the
RPO Monitoring/Data Analysis Workgroup
Slide2 : Note: This presentation contains substantial additional information in the notes section of PowerPoint that can be seen in the bottom panel of the 'Normal' view mode, and can be printed by selecting 'Notes Pages' from the 'Print what' selection of the 'Print' menu (go to 'Files' on the top tool bar and select 'Print'). You can also use 'Preview' for the 'Notes Pages' to more easily read the notes on your computer monitor.
These notes were prepared
to aid those hearing the presentation by relieving them of the burden of taking as many notes;
to allow those who haven’t heard the presentation to understand it by providing the additional information that is spoken during presentations; and
to provide a more complete documentation of the natural haze levels II approach for anyone who may want to understand it
For additional information contact Marc Pitchford at Marc.Pitchford@NOAA.gov
Overall Goal : Overall Goal Estimate 20% best and 20% worst natural haze levels for visibility-protected class I areas using the new IMPROVE algorithm for estimating light extinction from aerosol species concentrations.
Needed for Regional Haze Rule (RHR) rate of progress glide slopes where the new IMPROVE algorithm is used to characterize current haze levels
Should minimize the technical problems identified in the RHR default natural haze levels that were developed using the original IMPROVE algorithm
Default Natural Haze Levels Approach : Default Natural Haze Levels Approach Typical haze level estimates for East and West
Typical light extinction by applying the original IMPROVE algorithm to Trijonis natural species concentration estimates for East and West
Convert to haze index (deciview units)
20% best and 20% worst haze estimate for East and West
Best = typical – 1.28(standard deviation)
Worst = typical + 1.28(standard deviation)
Standard deviation is 3dv for the East and 2dv for the West (corresponds to the 10th and 90th percentile)
Criticism of the Default Approach : Criticism of the Default Approach Limitations of the original IMPROVE algorithm
Biased light extinction estimates at the extremes
Uses an outdated organic compound mass to carbon mass ratio
No sea salt (important at a few sites)
Rayleigh scattering of 10Mm-1 used for all site
Flawed assumptions used to estimate 20% best and worst conditions
Haze index for natural conditions are not likely to be normally distributed due to inclusion of Rayleigh scattering
10th and 90th percentiles don’t correspond to the best and worst conditions if the distribution were normal
Natural Haze Levels II Approach : Natural Haze Levels II Approach Adjust each of the measured major species concentrations to the Trijonis natural concentration estimates
Multiply each species concentration at a site by the site-specific ratio of the (Trijonis natural estimate) divided by the (annual mean concentration) for the species for the 5 year baseline period
If the annual mean concentration for a species is smaller than the Trijonis natural estimate, make no adjustment
Current sea salt levels are taken to be natural levels
Apply the new IMPROVE algorithm to the Trijonis-adjusted species concentrations at each site to produce a distribution of natural light extinction values
Convert to deciview and calculate the mean of the 20% best and 20% worst haze levels
Trijonis-Adjusted Specie Frequency Distributions : Trijonis-Adjusted Specie Frequency Distributions Sipsey Alabama
Each aerosol species mass concentration frequency distribution scaled to estimated natural mass concentrations
If current species mean is less than natural estimate, the that species is not scaled
Geometric shape of species distributions is unchanged Current 2000-2004 Natural Estimate Hanging bars
Solid - current mean
Dashed - natural estimate mean
Current and Natural Haze Frequency Distributions : Current and Natural Haze Frequency Distributions Sipsey Alabama
Natural scenario joint distribution shape is derived from scaling current aerosol species mass concentrations to natural condition estimates
Allows estimation of best and worst 20% dv or aerosol species extinction
Natural Haze Levels II : Natural Haze Levels II
Default Natural Haze Levels : Default Natural Haze Levels
Natural Haze Levels II, 10-Year Rate of Progress Glide Path : Natural Haze Levels II, 10-Year Rate of Progress Glide Path
Default Natural Haze Levels, 10-Year Rate of Progress Glide Path : Default Natural Haze Levels, 10-Year Rate of Progress Glide Path
Status and Next Steps : Status and Next Steps This presentation is the final report of the Natural Haze Levels II Committee of the RPO Monitoring/Data Analysis Workgroup
Review comments received by August 25, 2006 will be considered in preparation of the RPO Monitoring/Data Analysis Workgroup approved approach
Workgroup approved approach is forwarded to the RPOs for their consideration by August 31, 2006
This presentation, including the natural haze estimates and any modifications will be made available on VIEWS
Appendix : Appendix Tables of Natural Haze Level II Estimates for all IMPROVE Sites by RPO and State
Slide15 : CENRAP MANE-VU andamp; Midwest RPO
Slide16 : VISTAS + VI
Slide17 : WRAP
Slide18 : WRAP
Slide19 : WRAP
Slide20 : WRAP
Slide21 : WRAP
Catch the
buzz on authorSTREAM
Copyright © 2002-2008 authorSTREAM. All rights reserved.