Preparing Fire Emissions for CMAQ
October 7, 2014
Objective
Provide options for preparing the PMDETAIL fire inventories for CMAQ 2011 modeling.Description
Task 1 of the 3SAQS 2015 Work Plan calls for the development of a year 2011 CMAQ modeling platform. Fires (wild, agricultural, and prescribed) are significant air pollution sources that require special treatment in the air quality modeling system due to their unique physical and chemical characteristics. The PMDETAIL fire inventory includes information on specific fire events, including the size of the fires (daily area burned and pollution fluxes), timing, spatial (horizontal and vertical extent), and chemical parameters of the fires. These parameters are read in by software that translates the fire inventories into a format and terms that can be used by an air quality model for simulating the air quality impacts of the fires. ENVIRON both developed software for preprocessing the PMDETAIL inventories for input to CAMx and modified CAMx for modeling these data. Similar software and modifications are needed before the PMDETAIL fires can be simulated in CMAQ.The two parameters of the PMDETAIL fire inventories that are require special treatment include the horizontal spatial allocation (gridding) and vertical plume distribution (plume rise).
Gridding the fire inventories
The PMDETAIL fire inventory provides coordinates for daily fire event centroids. When allocating the fire emissions to modeling grid cells, care must be taken to consider the ratio between the fire size (acres) and the grid cell area. The reason for this consideration is that as grid resolutions increase, the fire emissions become concentrated in a single grid cell and overestimate the local air quality impacts of the fires. The extremely concentrated emissions can also cause problems for the numerical solvers in the air quality models. The table below shows the relationship between grid resolution, grid cell area, and acreage. Many of the large wildfires in the PMDETAIL inventory have burn areas that exceed the area of a 12-km grid cell.Grid Resolution | km^2 | Acres |
---|---|---|
36 | 1296 | 320,249 |
12 | 144 | 35,583 |
4 | 16 | 3,953 |
A similar approach is needed for processing these data for input to CMAQ.
Proposed Action
Modify the SMOKE program Grdmat to use a spatial interpolation approach to distribute PMDETAIL fires based on the ratio of the fire size to the model grid resolution. This modification would be applicable to all fire inventories that use the Air Sciences/WRAP fires inventory methodology. It would also be applicable for preparing these inventories for both CMAQ and CAMx, avoiding the need for a utility that is separate from the conventional emissions processing sequence.Fire Plume Rise
The Air Sciences/WRAP fires inventory methodology prescribes plume characteristics to each fire event in the inventory based on the fire type and fire size. Three plume parameters, Smoldering Fraction (LAY1F), Plume Bottom (PBOT), and Plume Top (PTOP), describe the vertical extent and distribution of the emissions. These parameters are used to allocate the emissions into the vertical layer structure of air quality models.Plume rise for air quality models canis be handled asperformed either offline or inline. The offline approach develops 3-D emissions files using an emissions processor (SMOKE). The air quality model reads the emissions directly into the layers in which they are emitted. The drawback to this approach is that the 3-D emissions files are a data storage and transfer burden because they are large files.
In the inline approach, the emissions processor passes the plume rise parameters from the inventory to the air quality model, which is then used...