Cloud and albedo enhancement impacts on solar irradiance using high frequency measurements from thermopile and photodiode radiometers. Part 2: Performance of separation and transposition models for global tilted irradiance

摘要

Based on high-accuracy irradiance measurements at a high-elevation station frequently affected by snow cover, this experimental study evaluates the interannual variability in high global tilted irradiance (>1 sun) incident on either latitude-tilt (40 degrees) or vertical-tilt (90 degrees) radiometers at 1-min resolution. Using a 10-year time series, this variability is found substantial, particularly for the 90 degrees tilt. The performance of five separation and seven transposition models is also analyzed in general, and most specifically under cloud and/or albedo enhancement events. The separation models' performance degrades rapidly for clearness indices larger than 0.8, to the point that three models tend to predict zero direct normal irradiance when it is actually high. Only one model (Engerer) can predict acceptable results, even though negatively biased under such conditions. All transposition models are also impacted by enhancement events. This is most particularly the case for one of them (Perez), which tends to predict an extremely low sky-diffuse component during those events, and even negative values in the case of the 90 degrees tilt. An analysis of the models' performance as a function of the clearness index reveals that most models are affected by a rapid degradation of performance when this index is larger than 0.8. For the 40 degrees tilt and on average over 10 years, the bias of the CDRS model is found reasonably low and stable even when the index approaches its maximum value. The maximum recorded value of GTI is approximate to 2000 W m(-2) (2 suns) for the 40 degrees tilt, using 1-s data. For the 90 degrees tilt, no model has a low and stable bias under all possible conditions, but the CDRS model still performs reasonably well under high clearness index conditions. All these findings confirm the fact that separation or transposition models that were empirically developed based on hourly irradiance data do not necessarily respond correctly to transient enhancement situations. (C) 2017 Elsevier Ltd. All rights reserved.