WRF-Fire
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WRF-Fire combines the Weather Research and Forecasting model (WRF) with a fire code implementing a surface fire behavior model, called SFIRE, based on semi-empirical formulas calculate the rate of spread of the fire line (the interface between burning and unignited fuel) based on fuel properties, wind velocities from WRF, and terrain slope. The fire spread is implemented by the level set method. The heat release from the fire line as well as post-frontal heat release feeds back into WRF dynamics, affecting the simulated weather in the vicinity of the fire. The fire code is written in Fortran 90 following WRF coding conventions. It is integrated as a physics option, called from WRF as a subroutine. It calls WRF libraries for utilities such as I/O and communication between MPI processes. The fire code executes on a part of the domain, called a tile (in WRF nomenclature). All communication between the tiles is in the caller; thus, one time step requires multiple calls to WRF-Fire.
WRF-Fire is essentially a reimplementation of CAWFE with the weather model replaced by WRF and with the fire spread implemented by the level set method in SFIRE. The subroutines for the computation of the rate of spread and for the insertion of the heat flux to the atmosphere are taken from CAWFE. Click on the following poster for the origins and a summary of current capabilities of WRF-Fire:
Since June 2011, we call the fire code SFIRE because of changes in WRF-Fire 3.3 release, and yhe coupled code is called WRF and SFIRE. We reserve the designation WRF-Fire for the code in the WRF release.
Distribution
WRF-Fire is public domain software, released under the WRF public domain notice and disclaimer.
WRF release version
WRF-Fire is included in WRF since version 3.2, released on April 2, 2010, maintained and supported by by NCAR as a part of WRF. It is available at the WRF download page. See the NCAR WRF-Fire page for further information.
Development version
See How to get WRF-Fire and How to run WRF-Fire for installation instructions for the development version, which contains the latest features and bug fixes. The development version is submitted for WRF release from time to time. We'll be happy to consider additional features but you need to get the development version if you want any changes sooner than in a year or two or support directly from us. We are making the development version publicly available in hope that it will be useful; the code has been changing quite rapidly, with important features and an occasional bug fix added between WRF releases. The head of the master branch should contain tested stable code at any time. The development version and this site also contain a number of additional tools and guides for visualization, diagnostics, and running the software; see the list of WRF-Fire pages.
The WRF-Fire module code in WRF version 3.3, released in April 2011, is based the development version as of November 2010, with some further changes made at NCAR.
Contact
- Janice Coen (WRF release version), Jonathan Beezley or Jan Mandel (development version)
File format
All input, output, and restart files (with the complete model state) are in NetCDF format.
Programming language and environments
Fortran 90 with CPP preprocessor. Part of the WRF code is generated by C programs from a description in the registry.
Documentation
Technical description
- The algorithms and software structure of WRF-Fire are described in Jan Mandel, Jonathan D. Beezley, and Adam K. Kochanski, Coupled atmosphere-wildland fire modeling with WRF-Fire version 3.3, Geoscientific Model Development Discussions (GMDD) 4, 497-545, 2011. doi:10.5194/gmdd-4-497-2011. Current version is maintained at arXiv:1102.1343. An older version is in the sections Fireline propagation model and Level set-based wildland file model of Jan Mandel, Jonathan D. Beezley, Janice L. Coen, Minjeong Kim, Data Assimilation for Wildland Fires: Ensemble Kalman filters in coupled atmosphere-surface models, IEEE Control Systems Magazine 29, Issue 3, June 2009, 47-65. Preprint at arXiv:0712.3965, December 2007.
User's guides
- WRF-Fire user's guide, updated continuously with the software as distributed by the developers.
- The WRF-Fire pages on this wiki, updated continuously.
- The WRF-Fire chapter in the WRF 3.2 User's guide for the version frozen in the WRF release.
Support
Mailing list
Questions and suggestions can be sent to the maling list at http://mailman.ucar.edu/mailman/listinfo/wrf-fire. Please subscribe to this list for further support, announcements, questions, and discussions.
Email support for the development version
Questions regarding the development version (from the git repository) can be sent the the list above, or email the developers directly. When you write us, please:
- Make sure you test the issue first on the code exactly as you have received it from the git repository as described in How to get WRF-Fire
git diff
should return no output- please verify that you are on the latest commit on the master branch from the repository
- Recompile the code from scratch after typing
clean -a
first - Send us the first line of the output of the command
git log
to identify the version - Send us sufficient information to identify and reproduce the problem if needed (output of wrf compilation, namelist.input, output from the run)
Email support for code in WRF release
The version of WRF-Fire in the WRF download is supported by NCAR. Please contact wrfhelp@ucar.edu with any questions regarding the version of WRF-Fire in the WRF release.
Wiki
We welcome contributions and discussion on the pages of this wiki. Please see the Main Page for How to get an account.
- The WRF-Fire wish list and Talk:WRF-Fire wish list are intended for further discussions regarding future developments of WRF-Fire.
- See the list of WRF-Fire pages for many quick guides how to do useful things, such as diagnostics and visualization
Publications
Contributors
- Janice Coen (NCAR) developed the physics components of the fire model in CAWFE (Coen (2005) and Clark et al. (2004)), in particular the fire spread rate and the heat flux insertion modules, which were adopted into WRF-Fire with no substantial changes, and has been refining the fuel and spread rate models.
- Ned Patton (NCAR) ported the fire code from (Clark et al., 2004) and interfaced it with WRF (Patton and Coen, 2004).
- Minjeong Kim and Jan Mandel (University of Colorado Denver) have identified a version of the level set metod suitable for fire spread, and developed a prototype Matlab code.
- Jan Mandel (University of Colorado Denver) has been developing the level set code and the overall fire module software structure.
- John Michalakes (formerly NCAR, now NREL) modified WRF to support refined grids (submesh) for the fire code.
- Jonathan Beezley (University of Colorado Denver) has further modified WRF to support the fire software, provided the software engineering infrastructure, has set up and maintains the git repository, maintains synchronization with WRF changes, and has been developing the modified version of WPS for WRF with the fire model to enable the use of real data.
- Volodymyr Kondratenko (University of Colorado Denver) has improved memory handing in the computation of remaining fuel.
- Adam Kochanski (University of Utah) has contributed variable atmospheric bubble initialization and suggested the walking line ignition. He is currently leading the validation effort.
- Kara Yedinak (Washington State University) has improved in fire initialization. See discussion
See also
External links
- WRF users page with links to download and documentation
- WRF-ARW Users Guide v. 3.2 (direct link)
- Technical description of WRF-ARW v. 3 (direct link)
- Graph of the commits in the repository