AERMOD Modeling System- Status and Updates.ppt

1、AERMOD Modeling System: Status and Updates,Roger Brode & James Thurman U.S. EPA/OAQPS Air Quality Modeling Group2009 NESCAUM PMC Annual Meeting Mystic, CT June 24, 2009,Outline,Recent AERMOD developments AERMOD dispersion model AERMAP terrain preprocessor AERMET meteorological preprocessor Pending “

2、Clarification Memos” AERSURFACE issues and plans Questions,Updates to all three AERMOD components completed or nearly complete: AERMAP (v.09040) released February 11, 2009 AERMOD and AERMET updates to be released on SCRAM ASAP Miscellaneous bug fixes and enhancements for all three AERMOD components

3、(more details on following slides) Improvements in code portability across compilers and platforms (Windows/Linux) for all components Update to Intel Fortran compiler for AERMOD executable (about 40% runtime improvement compared to Compaq Visual Fortran); G95 open source Fortran compiler used for AE

4、RMAP up to 4X faster than Intel Users Guides being updated to incorporate Addenda & other corrections,Recent AERMOD Developments,Corrected significant bug with use of OLMGROUP keyword for OLM option; more details in Addendum to MCB#3 Corrected problem with penetrated plume component in PVMRM option

5、Corrected problems with processing of surface file header for screening meteorology, for interface with AERSCREEN Initialization of unallocated arrays; created problem for some platforms/compilers,AERMOD Update Bug Fixes,AERMOD Update Enhancements,New options to vary emissions by hour-of-day and day

6、-of-week (HRDOW and HRDOW7) Enhanced HOUREMIS option to allow specifying hourly-varying release heights and initial sigmas for VOLUME and AREA sources (more flexibility for mobile sources) Improved memory allocation, especially for AREAPOLY sources Non-DFAULT option to specify FLAT terrain for speci

7、fic sources (Section 4.1 of AERMOD Implementation Guide) Non-DFAULT option for “optimized” meander implementation for POINT and VOLUME sources; effective y used to replicate peak centerline from DFAULT option, without upwind dispersion,Allow OPENPIT source with gaseous emissions; may be applicable f

8、or depressed roadway segments Option to specify FLAT terrain for some sources Use of DOUBLE PRECISION for nearly all non-integer variables addresses long-standing and recent issues with precision improves consistency of results across different compilers, compiler options, and computing platforms Ne

9、w options to output summary file (OU SUMMFILE) and to use scientific notation in output result files Significantly expanded test cases for next AERMOD update; more robust test of model options,AERMOD Update Enhancements,Treat urban roughness length values other than 1m as non-DFAULT (Section 5.3 of

10、AERMOD Implementation Guide) Elimination of TOXICS option Inherited from ISCST3 model; linked with range of disparate model options; role is no longer well defined New non-DFAULT option (FASTAREA) for area source optimizations formerly under TOXICS option Clarification of deposition options Distinct

11、ion between CONCentration calculations with deposition effects (settling and removal) vs. calculation of dry and/or wet deposition fluxes (DDEP, WDEP and/or DEPOS) Particle dry deposition algorithms, with user-specified particle size distribution, has never been considered as a non-DFAULT option in

12、ISCST(1), ISCST3 or AERMOD Dry and wet deposition of gases, and METHOD_2 option for particle deposition (ANL) treated as non-DFAULT options,AERMOD Update - Miscellaneous,Version 09040 update released on SCRAM Feb. 11, 2009 Fixed problems with processing Alaska DEM files (1-deg, 15-min and 7.5-min da

13、ta; non-uniform longitude spacing of nodes) Support for National Elevation Dataset (NED), available from USGS Seamless Data Server in GeoTIFF format Allow “mixed” DEM files (1-deg, 7.5-min, and 15-min for AK); can be used to fill gaps in 7.5-min coverage, such as over water grids; however, no suppor

14、t for mixed DEM will use all available data if omitted Support for INCLUDED keyword on RE and SO pathways Improved handling and reporting of non-standard (non-USGS) terrain data, including identification of receptors located in “gaps” between terrain files or inside terrain files,Recent AERMAP Chang

15、es,Allocatable array storage at runtime Modified to use standard convention of negative for West longitude Simplifies code structure and inputs Consistency with other tools (e.g., AERSURFACE) Improves applicability beyond the U. S. Code included to convert DOMAINLL inputs to new convention for backw

16、ard compatibility Update to AERMOD Implementation Guide with new sections to discuss issues regarding sources of terrain data (DEM, NED, SRTM, etc.), and use of AERMAP to estimate source elevations, posted on SCRAM March 19, 2009,Recent AERMAP Changes (cont.),Corrected problems with averaging of sub

17、-hourly inputs for site-specific data Make broader use of station elevations from data files (ISHD & SAMSON) and/or user-specified elevations for SURFACE data Corrected problems with time zone adjustments for cases with surface and onsite stations in different zones Added optional user-specified upp

18、er air sounding window, currently hardwired to 11-13Z Incorporated changes to handle ISHD files with “problem” addressed on interim basis by FIXISHD utility Option to process 1-minute ASOS wind data to supplement standard ISHD archive Option to “include” AERSURFACE output in Stage 3 rather than copy

19、 & paste,Recent AERMET Changes,Pending/Potential Issues for Clarification Memos,Use of ASOS vs. observer-based National Weather Service (NWS) data and treatment of missing NWS data in AERMOD Implementation of EPA formula for Good Engineering Practice (GEP) stack height in AERMOD (with PRIME downwash

20、),Pending Clarification Memo NWS Met Data Issues in AERMOD,AERMOD requirements for data completeness differ from ISCST3, which required 100% completeness under regulatory default option AERMOD sensitivity to ASOS vs. observer-based data has been assessed; generally less of an issue with AERMOD than

21、ISCST3 (documentation to be provided) Missing NWS data more extensive with advent of ASOS and METAR, with data gaps biased toward low wind speeds, raising concerns regarding representativeness for some applications; recent confirmation that ASOS WSs are truncated adds to concern regarding use of ASO

22、S data as is Potential use of 1-minute ASOS data to supplement standard NCDC archived data with hourly averaged winds; could significantly reduce number of calm and missing hours,Pending Clarification Memo GEP Formula Height in AERMOD,AERMOD currently turns off building downwash effects if stack hei

23、ght is greater than or equal to EPA formula for GEP stack height, Hgep: Hgep = Hb + 1.5L, where Hb = building height above stack base L = lesser of building height and projected width AERMOD implementation is consistent with all previous versions of AERMOD and ISC Significant discontinuities in AERM

24、OD impacts have been noted for stacks that straddle the GEP formula height; orders of magnitude in some cases,Pending Clarification Memo GEP Formula Height in AERMOD,Comments at 7th Modeling Conference in 2000 recommended that EPA consider changing ISC-PRIME to eliminate discontinuity at GEP height

25、EPA response was that current implementation is a requirement imposed by GEP Stack Height Regulations in Section 123 of CAA Magnitude of discontinuities found in some cases has prompted reexamination of this position Current assessment is that AERMOD should be modified to remove this criterion for t

26、urning off downwash influences,Pending Clarification Memo GEP Formula Height in AERMOD,GEP Stack Height regulations define GEP stack height as the greater of: 65 meters (de minimis GEP height); EPA formula height; or height determined by field study or fluid modeling demonstration Based on the defin

27、ition, EPA formula height does not apply below 65 meters Discontinuities are primarily a concern for shorter stacks, usually with squat buildings,Pending Clarification Memo GEP Formula Height in AERMOD,Pre-PRIME downwash algorithms defined vertical extent of wake influence generally consistent with

28、EPA formula height, resulting in little, if any, discontinuity Vertical extent of wake influence in PRIME formulation can extend well above the EPA formula height Wind tunnel studies clearly support wake influences above EPA formula height for some stack/building geometries Interim approach to assess potential impact of this issue is to model source with stack height just below GEP formula height,Questions?,Contact,Roger Brode brode.rogerepa.gov (919) 541-3518James Thurman thurman.jamesepa.gov (919)541-2703,