INSOLATION MAPPING OVER THE CONTINENTAL U.S. USING GOES IMAGERY
2009 Annual Report
1a.Objectives (from AD-416)
Produce near-real-time maps of hourly insolation maps at 20km resolution over the continental U.S. for the year 2009-2010 using GOES imagery. This product will be used in realtime execution of the Atmosphere-Land Exchange Inverse (ALEXI) model, developed at the USDA-ARS, to estimate evapotranspiration (ET) and other land surface fluxes.
1b.Approach (from AD-416)
Work with UW scientists to coordinate production and daily transfer of insolation dataset to HRSL. In addition, the UW cooperators will work on improvements to the existing algorithms, including a) incorporation of more reliable estimates of precipitable water from the NCEP GFS model; b) development of a validation/calibration procedure using pyranometer data from the U.S. Climatological Radiation Network; and c) transitioning of this new insolation algorithm to operations (including documentation).
The objective of this project is to produce near-real-time maps of hourly insolation at 20km resolution over the continental U.S. for the year 2009 using GOES imagery. This product is being used in realtime execution of the Atmosphere-Land Exchange (ALEXI) model, developed at the USDA-ARS, to estimate evapotranspiration and other land-surface fluxes. Legacy code was updated and optimized for execution speed. A calibration technique was developed using ground-based pyranometer data, which is used to adjust model cloud albedo using an objective analysis technique. The resulting calibration coefficient has dramatically improved the estimation of insolation from GOES measurements at high-reflectance (high cloud albedo, low insolation) situations. Atmospheric total precipitable water (TPW) is another important variable in the estimation of insolation from GOES data. Code has been written that accesses the NOAA Global Forecast System (GFS) TPW, a reliable and general source obtainable from the NOAA Web site. The ADODR has monitored the progress of this project through email correspondences and conference calls with University of Wisconsin scientists.