C41B-0698
Tilt Error in Cryospheric Surface Radiation Measurements at High Latitudes: A Model Study
Thursday, 17 December 2015
Poster Hall (Moscone South)
Wiley Bogren, Norwegian Institute of Bioeconomy Research, Ås, Norway, Arve Kylling, Norwegian Institute for Air Research, Kjeller, Norway and John F Burkhart, University of California, Merced, Sierra Nevada Research Institute, Merced, CA, United States; University of Oslo, Geosciences, Oslo, Norway
Abstract:
We have evaluated the magnitude and makeup of error in cryospheric radiation observations due to small sensor misalignment in in-situ measurements of solar irradiance. This error is examined through simulation of diffuse and direct irradiance arriving at a detector with a cosine-response foreoptic. Emphasis is placed on assessing total error over the solar shortwave spectrum from 250nm to 4500nm, as well as supporting investigation over other relevant shortwave spectral ranges. The total measurement error introduced by sensor tilt is dominated by the direct component. For a typical high latitude albedo measurement with a solar zenith angle of 60◦, a sensor tilted by 1, 3, and 5◦ can respectively introduce up to 2.6, 7.7, and 12.8% error into the measured irradiance and similar errors in the derived albedo. Depending on the daily range of solar azimuth and zenith angles, significant measurement error can persist also in integrated daily irradiance and albedo.