CHARM Trial - Flat Terrain Hazardous Air Release Software
The CHARM software is a software application that calculates and predicts the movement and concentration of airborne plumes from released chemicals; thermal radiation impacts from BLEVEs, pool fires, and jet fires; and explosion overpressures from mechanical and vapor cloud explosions. Source terms are calculated from observable data input (e.g. temperature, pressure, hole size, etc.). Results are available in tables as well as 2D and 3D graphics.
The input required for a scenario to be run in the flat terrain version is a release description and meteorological parameters. The complex terrain version also requires a grid defining the region to be calculated.
Impact (concentration, thermal radiation, or explosion overpressure) history at specified locations can also be generated. The user can either double click in the window or specify a distance and angle from the release site for calculating the impact history. Both versions provide 3D displays of the impact area with maps.
The flat terrain version of CHARM is designed to simulate the release from a single source. The complex terrain version is much more complete and can handle multiple sources and multiple species.
Both versions include the following capabilities:
- Editor for adding/editing chemicals.
- Editor for adding maps.
- Time varying emission rates.
- Two-phase releases.
- Releases from containment, evaporating pools, and user-defined rates.
- Time varying meteorology.
- Real-time meteorology is available, if a data collection system is present.
- Import maps automatically from Yahoo.
A list of the major features of the complex terrain version is:
- The effect of 3-dimensional terrain on the wind field and dispersion over an area.
- Averaging time is included in all concentration results.
- All outputs can be displayed in 3-D. This includes fires and explosions as well as concentration impacts.
- Vertical cross-sections can be displayed for the region along any user drawn line.
- Editor is capable of defining grids by importing DEM and land use data available over the Internet from the USGS and the Globe Project.
- Receptor height for plan views can be either in MSL altitude or altitude above surface.
- Maps can be superimposed over the 3-D terrain.
- A graphics program is available to show terrain, impacts, and maps using DirectX for more realistic displays.
- The advection/dispersion calculation is done over the 3 dimensional grid using a finite difference solution.
- A scenario and its calculations can be saved in a separate set of files so recalculation is not required.
- Multiple release sites, each with a different species, can be modeled in one run.
- Multiple meteorological sites.
- Liquid releases can be allowed to flow with the terrain when forming pools.
- A source can be particles with a user-defined size distribution. Concentrations and deposition amount can be displayed.
- Particles can coagulate, evaporate/condense, be created from chemical reactions, and fall to the ground.
- Convective heat transfer from the surface into the plume is considered.
- Chemical reactions can be calculated. Reaction rates can vary with temperature, solar radiation, particle size, or keyed to air and water vapor.
- Chemical reactions can be edited by the user.
- The 3-D calculation grid can contain nested grids.
- The nested grids can be user defined or automatically created by CHARM.
- The 3-D grid can represent rooms, piping, or other objects not attached to the ground.
- Export grid information in ASCII and BREEZE files.
- Create Google Earth files (kml/kmz) of buildings/objects, 2D, and 3D impacts.
- Nuclear radiation impacts from nuclides in the emission.
- Nuclide and mass fraction makeup of an emission can be specified.
- Radiation rate and dose calculated and displayed in 2D, 3D, and tables.