Download presentation
Presentation is loading. Please wait.
Published byHarold Norman Modified over 9 years ago
1
The Use of High Resolution Mesoscale Model Fields with the CALPUFF Dispersion Modelling System in Prince George BC Bryan McEwen Master’s project 2000-2002 Atmospheric Science Group Dr. Peter L. Jackson University of Northern British Columbia Funding supplied by the Oil and Gas Commission’s Environmental Fund Study conducted with the High Performance Computing Facility at UNBC with an SGI Origin 3400.
2
CALPUFF A Dispersion modelling system composed of 3 separate modules: –CALMET – a meteorological model, constructs 3-dimensional fields of wind, temperature and other variables from local observations. Deterministic in nature. Requires upper air data as well as data from at least one surface station. –CALPUFF – a Gaussian Puff dispersion model, predicts 3-dimensional fields of pollutant concentrations. Requires CALMET fields and an inventory of pollutant sources and emission rates. –CALPOST – a post processor that extracts pollutant concentrations from CALPUFF fields.
3
RAMS A prognostic (forecasting) mesoscale model, able to simulate circulations from hemispheric in scale down to 100’s of metres. Smaller grids are nested within larger parent grids when higher resolution is required. Calculates meteorological variables each time step. Smaller grid sizing requires a smaller time step and therefore more calculations. Significant computer resources needed. SGI Origin 3400 ‘Fraser’ used at the HPC facility at UNBC.
4
A “HINDCAST” instead of a “FORECAST” For regulatory modelling, a meteorological period in the past is used for dispersion analysis. RAMS is therefore used to make a “hindcast” of what the atmosphere was like during the period. ‘Nearby’ observations are used as boundary conditions to guide RAMS’ simulations. Predictions are periodically ‘corrected’ on the large scale. Numerical models such as RAMS are able to ‘telescope down’ from the large scale motions to predict circulations on a local scale. The influence of topography, vegetation, bodies of water, radiation etc. are accounted for by the model.
5
Research Objectives (Can simulated meteorology (RAMS fields) be used in lieu of meteorological observations to perform dispersion modelling in an area of complex terrain??) To assess the use of RAMS fields in producing high quality CALMET meteorological fields. To assess the use of RAMS fields in producing high quality CALPUFF pollutant concentration estimates.
6
Methodology -SO 2 chosen to model, within a 24.5km by 24.5 km domain surrounding Prince George. -Three 5-day periods in 1999 of moderate to high levels of SO 2 chosen to analyze. - 6 surface meteorological stations available. - 1 upper air meteorological station available. - 4 SO 2 monitoring stations available. Surface meteorological station Upper air meteorological station Significant SO 2 source SO 2 monitoring station
7
Methodology cont’d CALPUFF FLOWCHART
8
Methodology cont’d MODEL CONFIGURATION
9
RAMS Initialization The National Centers for Environmental Prediction (NCEP) coarse gridded datasets were used to initialize and nudge RAMS forecasts. These gridded fields at 2.5 o lat. by 2.5 o long, with 17 pressure levels in the vertical
10
Analysis of CALMET Meteorological Modelling
11
Analysis of Results – WIND FIELDS - Wind data from 5 of the 6 surface stations used to test each model’s wind fields (heavy arrows indicate station locations) - CALMET-3 used two of these 5 stations in its analysis, hence testing for this model is favourably biased. - CALMET-6 used all surface stations in its analysis, so no test of its wind fields was possible.
12
Analysis of Results – WIND FIELDS Average Root Mean Square Vector Error (RMSVE), modelled surface winds compared to observed winds at 5 station locations. MODELJANUARYAPRILJUNE CALMET-12.661.741.90 CALMET-31.481.301.74 RAMS-CALMET2.352.01
13
Analysis of Results – WIND FIELDS
14
Analysis of Results – WIND FIELDS Windrose diagram showing RAMS-CALMET modelled wind direction at Plaza during January Period.
15
Analysis of Results – WIND FIELDS Windrose diagram showing CALMET-3 modelled wind direction at Plaza during January period.
16
Analysis of Results – BOUNDARY LAYER Inversions conditions, developing overnight, exacerbate poor air quality by limiting vertical mixing During several evenings of the three periods examined, strong inversion conditions existed. RAMS consistently did not develop accurate temperature profiles within the boundary layer. (extreme case shown)
17
Analysis of CALPUFF Dispersion Modelling
18
Analysis of Results – SO 2 CONCENTRATIONS CALMET-1CALMET-3CALMET-6RAMS-CALMET JANUARY99986167 APRIL97 7168 JUNE79978384 Mean Relative Error (MRE) (%), modelled 24-hr SO 2 concentrations from observed concentrations at 4 monitoring sites.
19
Conclusions There is evidence that RAMS accounted for much of the influence of topographical heights on the regional winds. The use of RAMS fields with CALMET, although possessing errors, produced meteorological fields as good or better than CALMET using 1 or 3 surface stations. CALPUFF dispersion estimates of SO 2 made with RAMS input were more representative of observed concentrations than those made with 1 or 3 station CALMET fields.
Similar presentations
© 2024 SlidePlayer.com. Inc.
All rights reserved.