Difference between revisions of "How to diagnose fuel properties in WRF-SFIRE"

Revision as of 07:21, 24 October 2010

The fuel properties in WRF-Fire are given in file namelist.fire. These serve to create coefficients in the Rothermel's formula. To aid diagnostics it is useful to graph the resulting fire spread rate as a function of wind and slope. The graphs are available in metric units, as well as in English units for direct comparison with the published spread rate graphs for the Scott-Burgan fuel categories.

Prerequisites

Step-by-step instructions

Run WRF-Fire, you can kill it right after the the first time step. There will be file fuels.m created in the current directory.
Start Matlab in the directory test/em_fire to set up the search path properly.
In Matlab, navigate to the directory with the fuels.m file
Type fuels. This will create variable fuel. Say you want to check fuel 3. Type fuel(3) to see what is there.
Type plot_fuel(fuel(3)) to create the graph below in metric units, and plot_fuel(fuel(3),'sb') for the same units as in Scott and Burgan (2005). The graph data are created in WRF-Fire and stored in the fuel variable.
Type edit fire_ros to see the fire spread rate calculation recreated in Matlab.
Type big(check_ros(fuel)) to make sure the calculation in Matlab is the same as in WRF-Fire (subroutine fire_ros in file module_fr_sfire_phys.F), it should return rounding error only (less than 1e-4)

Works with

WRF-Fire branch fireflux 16 Sep 2010 and hopefully later
Matlab R2010a

References

Anderson, H. E., 1982. Aids to determining fuel models for estimating fire behavior. U.S. Forest Service General Technical Report INT-122. Ogden, UT. pdf (The original 13 fuel models)
Baughman, R. G. and F. A. Albini.,1980. Estimating midflame windspeeds. In Sixth Conference on Fire and Forest Meteorology, Seattle, WA (Society of American Foresters) pdf (Windspeed reduction from 20ft)
Rothermel, R.C., 1972. A mathematical model for predicting fire spread in wildland fuels. Res. Pap. INT-115. Ogden, UT: U.S. Department of Agriculture, Forest Service, Intermountain Forest and Range Experiment Station. 40 pp. pdf (The original for reference)
Rothermel, R. C., 1983. How to predict the spread and intensity of forest and range fires. U.S. Forest Service General Technical Report INT-143. Ogden, UT. pdf (Updated version)
Scott, J. H. and Burgan, R. E., 2005. Standard fire behavior fuel models: a comprehensive set for use with Rothermel's surface fire spread model. Gen. Tech. Rep. RMRS-GTR-153. Fort Collins, CO: U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, 72 pp. pdf (More detailed fuel models, with rate of spread curves)

External links

@@ Line 32: / Line 32: @@
 * [http://firemodels.fire.org/content/view/34/34/ BehavePlus publications]
 * [[Wikipedia:Log wind profile]]
-* [http://www.meted.ucar.edu/fire/s591/models/ Fire model matrix]
+* [http://www.meted.ucar.edu/fire/s591/models/ Fire model matrix] in [http://www.meted.ucar.edu/dl_courses/fire/ Advanced Fire Weather Forecasters Course (S-591)] at [http://www.meted.ucar.edu meted.ucar.edu]
+* [http://math.fire.org Firefighter Math: Self-Paced Math Course] at [http://fire.org fire.org]
 [[Category:WRF-Fire]]
 [[Category:Howtos|Diagnose fuel properties in WRF-Fire]]