Documentation of the Evaluation of CALPUFF and Other Long ...
Documentation of the Evaluation of CALPUFF and Other Long ...
Documentation of the Evaluation of CALPUFF and Other Long ...
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Table 3‐11. <strong>CALPUFF</strong>/MMIF sensitivity tests analyzed with <strong>the</strong> July 8, 1980 GP80 database.<br />
Grid<br />
Resolution MM5 MDISP MCTURB Comment<br />
36 km 36 km 2 1 36 km MM5 with <strong>CALPUFF</strong> turbulence dispersion (CAL)<br />
36 km 36 km 2 2 36 km MM5 with AERMOD turbulence dispersion (AER)<br />
36 km 36 km 3 36 km MM5 with Pasqual‐Gifford dispersion (PG)<br />
12 km 12 km 2 1 12 km MM5 with <strong>CALPUFF</strong> turbulence dispersion (CAL)<br />
12 km 12 km 2 2 12 km MM5 with AERMOD turbulence dispersion (AER)<br />
12 km 12 km 3 12 km MM5 with Pasqual‐Gifford dispersion (PG)<br />
3.3 QUALITY ASSURANCE<br />
The quality assurance (QA) <strong>of</strong> <strong>the</strong> <strong>CALPUFF</strong> modeling system simulations for <strong>the</strong> GP80 tracer<br />
experiment was assessed by analyzing <strong>the</strong> CALMET <strong>and</strong> <strong>CALPUFF</strong> input <strong>and</strong> output files <strong>and</strong> <strong>the</strong><br />
dates <strong>the</strong>y were generated. The input file options were compared against <strong>the</strong> August 2009<br />
EPA‐FLM recommended settings for CALMET <strong>and</strong> <strong>the</strong> definitions <strong>of</strong> <strong>the</strong> sensitivity tests to<br />
assure that <strong>the</strong> intended parameters were defined. The QA <strong>of</strong> <strong>the</strong> MMIF runs was not as<br />
complete because no input files or list files were provided to document <strong>the</strong> MMIF parameters.<br />
However, since all <strong>the</strong> MMIF tool does is pass through <strong>the</strong> MM5 output to <strong>CALPUFF</strong> <strong>the</strong>re are<br />
not many options available.<br />
The 100 km <strong>and</strong> 600 km receptor arc CALMET sensitivity simulations used a TERRAD value <strong>of</strong> 20<br />
km (radius <strong>of</strong> influence <strong>of</strong> terrain on wind fields, in kilometers). The 2009 EPA‐FLM clarification<br />
memor<strong>and</strong>um recommends that TERRAD = 15. Four CALMET parameters (BIAS, NSMTH,<br />
NINTR2, <strong>and</strong> FEXTR2) require a value for each vertical layer processed in CALMET. The 100 km<br />
<strong>and</strong> 600 km CALMET Base Cases are based on six vertical layers, but <strong>the</strong> sensitivity simulations<br />
are based on ten vertical layers. The CALMET sensitivity simulations were provided with only<br />
six values for BIAS, NSMTH, NINTR2, <strong>and</strong> FEXTR2 even though ten vertical layers were<br />
simulated. Therefore, CALMET used default values for <strong>the</strong> upper four vertical layers (1200 m,<br />
2000 m, 3000 m, <strong>and</strong> 4000 m).<br />
In addition to <strong>the</strong> three <strong>CALPUFF</strong> dispersion options (AERMOD, <strong>CALPUFF</strong>, <strong>and</strong> PG), <strong>the</strong>re were<br />
o<strong>the</strong>r <strong>CALPUFF</strong> parameters that differed between <strong>the</strong> 100 km <strong>and</strong> 600 km <strong>CALPUFF</strong>/CALMET<br />
BASE case <strong>and</strong> sensitivity cases <strong>and</strong> <strong>CALPUFF</strong>/MMIF modeling scenarios. Differences in <strong>the</strong><br />
<strong>CALPUFF</strong> parameters used in <strong>the</strong> 100 km <strong>and</strong> 600 km receptor arc simulation include:<br />
• All <strong>of</strong> <strong>the</strong> <strong>CALPUFF</strong> 600 km sensitivity runs (<strong>CALPUFF</strong>/CALMET <strong>and</strong> <strong>CALPUFF</strong>/MMIF) <strong>and</strong><br />
100 km <strong>CALPUFF</strong>/MMIF runs were all conducted using only puffs (MSLUG = 0), but <strong>the</strong> 100<br />
km <strong>CALPUFF</strong>/CALMET <strong>and</strong> 1998 <strong>CALPUFF</strong> simulations assume near‐field slug formation<br />
(MSLUG = 1).<br />
• <strong>CALPUFF</strong> 100 km <strong>CALPUFF</strong>/MMIF runs <strong>and</strong> all 600 km <strong>CALPUFF</strong> runs allowed for vertical<br />
wind shear (MSHEAR = 1), <strong>the</strong> 100 km BASE case <strong>and</strong> 100 km <strong>CALPUFF</strong>/CALMET sensitivity<br />
scenarios assume no vertical wind shear. The IWAQM Phase II (1998) guidance<br />
recommends MSHEAR = 0.<br />
• The initial <strong>CALPUFF</strong> 100 km <strong>and</strong> 600 km sensitivity tests assumed no puff splitting (MSPLIT<br />
= 0), whereas <strong>the</strong> IWAQM Phase II (1998) recommends that default puff splitting be<br />
performed (MSPLIT = 1). This issue was investigated for <strong>the</strong> 600 km arc using additional<br />
<strong>CALPUFF</strong> sensitivity tests.<br />
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