Generating and Using Meteorological Data in AERMOD
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Transcript of Generating and Using Meteorological Data in AERMOD
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Prepared by:
BREEZE Software
12770 Merit Drive | Suite 900 | Dallas, TX 75251
+1 (972) 661-8881 | breeze-software.com
George J. Schewe, CCM, QEP
June 26, 2012
Generating and Using
Meteorological Data in AERMOD
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M t l i T t tiMeteorology in Transportation Hot Spot ModelingHot Spot Modeling
AERMOD mentioned i S ti 3 6in Section 3.6
Focus here on AERMOD input filesAERMOD input files
Section 7.5 -Incorporating Meteorological Data
From where do the data come?data come?
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Wh t i AERMOD?What is AERMOD?
“A steady-state plume model that incorporates air dispersion based on planetary boundary layer turbulence structure and scaling concepts, including treatment of both surface and elevated sources, and both simple and complex terrain.”Support Center for Regulatory Air Models -www.epa.gov/scram001/dispersion_prefrec.htm
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H t S t M d li PHot-Spot Modeling Process
1. Determine need for analysis2. Determine approach, models, data3. Estimate on-road motor vehicle emissions4. Estimate emissions from road dust, construction, other
sourcessou ces5. Select AQ model, meteorology, roadway configurations,
receptors, background concentrations6 C l l t d i l t NAAQS d6. Calculate design values, compare to NAAQS, and
determine conformity7. Consider mitigation or control measures and repeat
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Meteorological Data for AERMOD
Finding representative meteorological d t NWS FAA SCRAM itdata – NWS, FAA, SCRAM, onsite
Surface and upper air data AERSURFACE for albedo, Bowen
ratio, surface roughness AERMET preprocessor
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S l ti M t l fSelecting Meteorology for Project-Level Hot-Spot AnalysisProject Level Hot Spot Analysis Surface met data – NWS, Onsite, other
Offsite met data – minimum five years Onsite met data – minimum one year
U i t d t Upper air met data Surface characteristics, land use Population data – used for urban-rural Representative of the project area?
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R t ti fRepresentativeness of Meteorology for Hot-Spot AnalysisMeteorology for Hot Spot Analysis Proximity of project to met data site Similarity of land use and surface
characteristics Time period of data Similarity of terrain features Similarity of terrain features Climate similarities
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Ai t Sit LULCAirport vs Site LULC
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S f D tSurface Data
National Weather Service Data is typical TD-3505 format (Integrated Hourly Surface TD 3505 format (Integrated Hourly Surface
Data) obtained from National Climatic Data Center in Asheville or ftp://ftp3.ncdc.noaa.gov/pub/data/noaa
Minute data obtained from NOAA at ftp://ftp ncdc noaa gov/pub/data/asos-oneminftp://ftp.ncdc.noaa.gov/pub/data/asos-onemin
Verify station location at http://www4.ncdc.noaa.gov/cgi-win/wwcgi.dll?WWDI~StnSrch
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htt // i d / / d /http://gis.ncdc.noaa.gov/map/cdo/
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htt // i d / / dhttp://gis.ncdc.noaa.gov/map/cdo/o/
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St ti L tiStation Location
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Station LocationStation Location
BiGoogle Earth Bing
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U Ai D tUpper Air Data
National Weather Service Data is typical FSL Format (Forecast Systems Laboratory) FSL Format (Forecast Systems Laboratory)
obtained from NOAA online at http://www.esrl.noaa.gov/raobs
Verify station location at http://www4.ncdc.noaa.gov/cgi-win/wwcgi.dll?WWDI~StnSrch
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Upper Air Observation sites
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Upper Air Station LocationUpper Air Station Location
BiGoogle Earth Bing
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L d ULand Use From the USGS Seamless Server at
http://seamless.usgs.gov/website/seamless/viewer.htm Currently only NLCD92 format
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R i f L d UReview of Land UseFacility Landuse
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AERSURFACE O t tAERSURFACE Output
Season Sect Alb Bo ZoSITE_CHAR 1 1 0.17 0.92 0.026SITE_CHAR 1 2 0.17 0.92 0.013SITE CHAR 1 3 0.17 0.92 0.012
Alb – albedo is the amount of solar radiation reflected by the surface
SITE_CHAR 1 3 0.17 0.92 0.012SITE_CHAR 1 4 0.17 0.92 0.030SITE_CHAR 1 5 0.17 0.92 0.021SITE_CHAR 1 6 0.17 0.92 0.128SITE_CHAR 1 7 0.17 0.92 0.571
Bo – Bowen ratio is the ratio of sensible to latent heat_
SITE_CHAR 1 8 0.17 0.92 0.319SITE_CHAR 1 9 0.17 0.92 0.285SITE_CHAR 1 10 0.17 0.92 0.035SITE_CHAR 1 11 0.17 0.92 0.018
Zo – surface roughness length is related to the land use which interrupts
SITE_CHAR 1 12 0.17 0.92 0.030SITE_CHAR 2 1 0.16 0.66 0.036SITE_CHAR 2 2 0.16 0.66 0.019SITE_CHAR 2 3 0.16 0.66 0.017
land use which interrupts smooth-flowing winds at the surface
SITE_CHAR 2 4 0.16 0.66 0.044SITE_CHAR 2 5 0.16 0.66 0.031SITE_CHAR 2 6 0.16 0.66 0.163
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AERMET P iAERMET Processing Stage 1 and 2
Raw SoundingFile AERMET QA
-------------- Stage 1 and 2 -----------------Stage 3
SurfaceRaw
S f Fil AERMET QA
File
MERGESurface File AERMET QA
Raw
MERGE
UpperManual/AERMET
On-site File
Explicit LandBowen ratio,
roughness,
QA
1-min data AERMINUTEExplicit LandUse Analysis
g ,albedo
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F t f AERMETFeatures of AERMETProcesses one minute and hourly surface observations,
twice-daily upper air soundings, and on-site measurements:
AERMINUTE processes one minute u and AERMINUTE – processes one minute u and AERMET – processes in three stages Stage 1: Extracts/processes data from AERMINUTE, S age ac s/p ocesses da a o U ,
archived data files and performs quality assessment (QA)
Stage 2: Merges all data from Stage 1 and stores these data together in a single file
Stage 3: Reads merged meteorological data and estimates b d l t f b AERMODboundary layer parameters for use by AERMOD
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Surface Turbulence Parameters AERMET computes turbulence parameters
for use in AERMOD Sensible heat flux Surface friction velocity Convective velocity scale Convective velocity scale Convective boundary layer height Vertical potential temperature gradientp p g Stable boundary layer height Monin-Obukhov length
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Processed Met DataProcessed Met Data Met Data File using PCRAMMETMet Data File using PCRAMMET
Surface Met Data File using AERMET
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Questions/Discussion?
George J. Schewe, CCM, QEP(859) 341-8100(859) [email protected] trinityconsultants comwww.trinityconsultants.com